#00 Chinese (Simplified) #01 2008-02-13 Forrest Sun #02 2008-11-06 Yang Gao (grantyale) #03 2013-10-20 Jiero #04 2014-10-24 Jie Luo #05 2017-09-18 Chongnuo Ji #06 2020-08-11 十一元人民币 #07 2021-09-24 十一元人民币 ABOUT_TAB_BUILD;版本 ABOUT_TAB_CREDITS;致谢名单 ABOUT_TAB_LICENSE;授权协议 ABOUT_TAB_RELEASENOTES;发布说明 ABOUT_TAB_SPLASH;启动页 ADJUSTER_RESET_TO_DEFAULT;单击-恢复默认值\nCtrl+单击-恢复初始值 BATCH_PROCESSING;批量处理 CURVEEDITOR_AXIS_IN;I: CURVEEDITOR_AXIS_LEFT_TAN;LT: CURVEEDITOR_AXIS_OUT;O: CURVEEDITOR_AXIS_RIGHT_TAN;RT: CURVEEDITOR_CATMULLROM;灵活 CURVEEDITOR_CURVE;曲线 CURVEEDITOR_CURVES;曲线 CURVEEDITOR_CUSTOM;自定义 CURVEEDITOR_DARKS;暗 CURVEEDITOR_EDITPOINT_HINT;启用对于节点进/出值的编辑\n\n右击节点以选中\n右击空白处以取消选中节点 CURVEEDITOR_HIGHLIGHTS;高光 CURVEEDITOR_LIGHTS;光 CURVEEDITOR_LINEAR;线性 CURVEEDITOR_LOADDLGLABEL;加载曲线... CURVEEDITOR_MINMAXCPOINTS;均衡器 CURVEEDITOR_NURBS;控制点 CURVEEDITOR_PARAMETRIC;参数 CURVEEDITOR_SAVEDLGLABEL;保存曲线... CURVEEDITOR_SHADOWS;阴影 CURVEEDITOR_TOOLTIPCOPY;复制当前曲线到剪贴板 CURVEEDITOR_TOOLTIPLINEAR;重置曲线 CURVEEDITOR_TOOLTIPLOAD;读取曲线 CURVEEDITOR_TOOLTIPPASTE;从剪贴板粘贴曲线 CURVEEDITOR_TOOLTIPSAVE;保存曲线 CURVEEDITOR_TYPE;类型： DIRBROWSER_FOLDERS;文件夹 DONT_SHOW_AGAIN;不再显示该信息 DYNPROFILEEDITOR_DELETE;删除 DYNPROFILEEDITOR_EDIT;编辑 DYNPROFILEEDITOR_EDIT_RULE;编辑动态配置规则 DYNPROFILEEDITOR_ENTRY_TOOLTIP;该项匹配不区分大小写\n使用 "re:" 前缀来输入\n一个正则式 DYNPROFILEEDITOR_IMGTYPE_ANY;任意 DYNPROFILEEDITOR_IMGTYPE_HDR;HDR DYNPROFILEEDITOR_IMGTYPE_PS;像素偏移 DYNPROFILEEDITOR_IMGTYPE_STD;标准 DYNPROFILEEDITOR_MOVE_DOWN;下移 DYNPROFILEEDITOR_MOVE_UP;上移 DYNPROFILEEDITOR_NEW;新建 DYNPROFILEEDITOR_NEW_RULE;新建动态配置规则 DYNPROFILEEDITOR_PROFILE;处理配置规则 EDITWINDOW_TITLE;图片修改 EDIT_OBJECT_TOOLTIP;在预览窗口中展示一个允许你调整本工具的可视窗口 EDIT_PIPETTE_TOOLTIP;要向曲线添加调整点，点击此按钮，按住Ctrl键并用鼠标左键点击图像预览中你想调整的地方。\n要调整点的位置，按住Ctrl键并用鼠标左键点击图像预览中的对应位置，然后松开Ctrl（除非你希望精调）同时按住鼠标左键，将鼠标向上/下移动以上下调整曲线中的点 EXIFFILTER_APERTURE;光圈 EXIFFILTER_CAMERA;相机 EXIFFILTER_EXPOSURECOMPENSATION;曝光补偿值 (EV) EXIFFILTER_FILETYPE;文件类型 EXIFFILTER_FOCALLEN;焦距 EXIFFILTER_IMAGETYPE;图像类型 EXIFFILTER_ISO;感光度 EXIFFILTER_LENS;镜头 EXIFFILTER_METADATAFILTER;启用元数据过滤器 EXIFFILTER_SHUTTER;快门 EXIFPANEL_ADDEDIT;添加/编辑 EXIFPANEL_ADDEDITHINT;添加/编辑标签 EXIFPANEL_ADDTAGDLG_ENTERVALUE;输入内容 EXIFPANEL_ADDTAGDLG_SELECTTAG;选择标签 EXIFPANEL_ADDTAGDLG_TITLE;添加/编辑标签 EXIFPANEL_KEEP;保留 EXIFPANEL_KEEPHINT;输出文件时保留“已选”标签 EXIFPANEL_REMOVE;移除 EXIFPANEL_REMOVEHINT;输出文件时移除“已选”标签 EXIFPANEL_RESET;重置 EXIFPANEL_RESETALL;全部重置 EXIFPANEL_RESETALLHINT;重置所有标签内容 EXIFPANEL_RESETHINT;重置所选标签内容 EXIFPANEL_SHOWALL;显示所有 EXIFPANEL_SUBDIRECTORY;子文件夹 EXPORT_BYPASS;要跳过的处理步骤 EXPORT_BYPASS_ALL;选择/取消选择全部选项 EXPORT_BYPASS_DEFRINGE;跳过去除色边处理 EXPORT_BYPASS_DIRPYRDENOISE;跳过降噪处理 EXPORT_BYPASS_DIRPYREQUALIZER;跳过分频反差调整 EXPORT_BYPASS_EQUALIZER;跳过小波层级处理 EXPORT_BYPASS_RAW_CA;跳过 [raw] 色差矫正 EXPORT_BYPASS_RAW_CCSTEPS;跳过 [raw] 伪色抑制 EXPORT_BYPASS_RAW_DCB_ENHANCE;跳过 [raw] DCB优化步长 EXPORT_BYPASS_RAW_DCB_ITERATIONS;跳过 [raw] DCB迭代 EXPORT_BYPASS_RAW_DF;跳过 [raw] 暗场处理 EXPORT_BYPASS_RAW_FF;跳过 [raw] 平场 EXPORT_BYPASS_RAW_GREENTHRESH;跳过 [raw] 绿平衡 EXPORT_BYPASS_RAW_LINENOISE;跳过 [raw] 线状噪点过滤 EXPORT_BYPASS_RAW_LMMSE_ITERATIONS;跳过 [raw] LMMSE优化步长 EXPORT_BYPASS_SHARPENEDGE;跳过边缘锐化 EXPORT_BYPASS_SHARPENING;跳过锐化 EXPORT_BYPASS_SHARPENMICRO;跳过微反差调节 EXPORT_FASTEXPORTOPTIONS;快速导出选项 EXPORT_INSTRUCTIONS;快速导出选项提供跳过占用资源和时间的处理步骤的选项，并使用快速导出设定来进行队列处理。\n此方法推荐在优先追求速度，生成低分辨率图片时使用，或是调整尺寸的输出大小适合你想输出的图片，你又不想修改这些照片的后期处理设定时使用。 EXPORT_MAXHEIGHT;最大高度： EXPORT_MAXWIDTH;最大宽度： EXPORT_PIPELINE;输出流水线 EXPORT_PUTTOQUEUEFAST; 放入快速导出队列 EXPORT_RAW_DMETHOD;去马赛克算法 EXPORT_USE_FAST_PIPELINE;专门（对缩放大小的图片应用全部处理） EXPORT_USE_FAST_PIPELINE_TIP;使用专门的处理流水线来对图片进行处理，以牺牲质量来换取速度。对图片的缩放会尽早进行，而非在正常流水线中那样在最后进行。这能够大幅提升速度，但是用户可能会在输出的图片中看到杂点和较低的总体质量。 EXPORT_USE_NORMAL_PIPELINE;标准（跳过某些步骤，并在最后缩放图片） EXTPROGTARGET_1;raw EXTPROGTARGET_2;队列已处理 FILEBROWSER_APPLYPROFILE;应用配置 FILEBROWSER_APPLYPROFILE_PARTIAL;部分应用配置 FILEBROWSER_AUTODARKFRAME;自动暗场 FILEBROWSER_AUTOFLATFIELD;自动平场 FILEBROWSER_BROWSEPATHBUTTONHINT;点击以打开路径，刷新文件夹并搜索“查找”框中的关键词 FILEBROWSER_BROWSEPATHHINT;输入你想前往的路径。\n\n快捷键：\nCtrl-o 让文本框获得焦点\nEnter / Ctrl-Enter 前往输入的目录\nEsc 清除改动\nShift-Esc 让文本框失去焦点\n\n路径快捷键：\n~ - 用户的home/文档路径\n! - 用户的图片路径 FILEBROWSER_CACHE;缓存 FILEBROWSER_CACHECLEARFROMFULL;清除全部，包括缓存文件 FILEBROWSER_CACHECLEARFROMPARTIAL;清除全部，不包括缓存文件 FILEBROWSER_CLEARPROFILE;清空 FILEBROWSER_COLORLABEL_TOOLTIP;颜色标记，\n\n使用下拉菜单或快捷键：\nShift-Ctrl-0 无颜色\nShift-Ctrl-1 红\nShift-Ctrl-2 黄\nShift-Ctrl-3 绿\nShift-Ctrl-4 蓝\nShift-Ctrl-5 紫 FILEBROWSER_COPYPROFILE;复制 FILEBROWSER_CURRENT_NAME;当前名称： FILEBROWSER_DARKFRAME;暗场 FILEBROWSER_DELETEDIALOG_ALL;你确定要永久删除%1个垃圾桶中的文件吗？ FILEBROWSER_DELETEDIALOG_HEADER;删除确认 FILEBROWSER_DELETEDIALOG_SELECTED;你希望永久删除%1个被选中的文件吗？ FILEBROWSER_DELETEDIALOG_SELECTEDINCLPROC;你希望永久删除%1个被选中的文件，包括已进行过队列处理的版本吗？ FILEBROWSER_EMPTYTRASH;清空垃圾箱 FILEBROWSER_EMPTYTRASHHINT;永久删除垃圾桶的所有文件 FILEBROWSER_EXTPROGMENU;打开方式 FILEBROWSER_FLATFIELD;平场 FILEBROWSER_MOVETODARKFDIR;移动到暗场路径 FILEBROWSER_MOVETOFLATFIELDDIR;移动到平场路径 FILEBROWSER_NEW_NAME;新名称： FILEBROWSER_OPENDEFAULTVIEWER;Windows默认阅览工具(队列) FILEBROWSER_PARTIALPASTEPROFILE;选择性粘贴 FILEBROWSER_PASTEPROFILE;粘贴 FILEBROWSER_POPUPCANCELJOB;取消任务 FILEBROWSER_POPUPCOLORLABEL;色彩标签 FILEBROWSER_POPUPCOLORLABEL0;标签：无 FILEBROWSER_POPUPCOLORLABEL1;标签：红 FILEBROWSER_POPUPCOLORLABEL2;标签：黄 FILEBROWSER_POPUPCOLORLABEL3;标签：绿 FILEBROWSER_POPUPCOLORLABEL4;标签：蓝 FILEBROWSER_POPUPCOLORLABEL5;标签：紫 FILEBROWSER_POPUPCOPYTO;复制至... FILEBROWSER_POPUPFILEOPERATIONS;文件操作 FILEBROWSER_POPUPMOVEEND;移动到队列尾部 FILEBROWSER_POPUPMOVEHEAD;移动到队列头部 FILEBROWSER_POPUPMOVETO;移动至... FILEBROWSER_POPUPOPEN;打开 FILEBROWSER_POPUPOPENINEDITOR;在编辑器中打开 FILEBROWSER_POPUPPROCESS;放入队列 FILEBROWSER_POPUPPROCESSFAST;放入队列（快速导出） FILEBROWSER_POPUPPROFILEOPERATIONS;后期档案操作 FILEBROWSER_POPUPRANK;评级 FILEBROWSER_POPUPRANK0;取消评级 FILEBROWSER_POPUPRANK1;评1星 FILEBROWSER_POPUPRANK2;评2星 FILEBROWSER_POPUPRANK3;评3星 FILEBROWSER_POPUPRANK4;评4星 FILEBROWSER_POPUPRANK5;评5星 FILEBROWSER_POPUPREMOVE;永久删除 FILEBROWSER_POPUPREMOVEINCLPROC;永久删除，包括队列处理的版本 FILEBROWSER_POPUPRENAME;重命名 FILEBROWSER_POPUPSELECTALL;全部选中 FILEBROWSER_POPUPTRASH;移动到垃圾箱 FILEBROWSER_POPUPUNRANK;取消星级 FILEBROWSER_POPUPUNTRASH;从垃圾箱中移除 FILEBROWSER_QUERYBUTTONHINT;清除搜索队列 FILEBROWSER_QUERYHINT;输入文件名进行搜索。支持不完整文件名。使用英文逗号分割关键词，例：\n1001,1004,1199\n\n在关键词前面加入!=以排除此关键词，例：\n!=1001,1004,1199\n\n快捷键：\nCtrl-f-让搜索框获得焦点，\nEnter-搜索，\nEsc-清空搜索框，\nShift-Esc-让搜索框失去焦点 FILEBROWSER_QUERYLABEL; 查找： FILEBROWSER_RANK1_TOOLTIP;评1星\n快捷键：Shift-1 FILEBROWSER_RANK2_TOOLTIP;评2星\n快捷键：Shift-2 FILEBROWSER_RANK3_TOOLTIP;评3星\n快捷键：Shift-3 FILEBROWSER_RANK4_TOOLTIP;评4星\n快捷键：Shift-4 FILEBROWSER_RANK5_TOOLTIP;评5星\n快捷键：Shift-5 FILEBROWSER_RENAMEDLGLABEL;文件重命名 FILEBROWSER_RESETDEFAULTPROFILE;还原到默认 FILEBROWSER_SELECTDARKFRAME;选择暗场… FILEBROWSER_SELECTFLATFIELD;选择平场… FILEBROWSER_SHOWCOLORLABEL1HINT;显示被标记为红色的照片\n快捷键：Alt-1 FILEBROWSER_SHOWCOLORLABEL2HINT;显示被标记为黄色的照片\n快捷键：Alt-2 FILEBROWSER_SHOWCOLORLABEL3HINT;显示被标记为绿色的照片\n快捷键：Alt-3 FILEBROWSER_SHOWCOLORLABEL4HINT;显示被标记为蓝色的照片\n快捷键：Alt-4 FILEBROWSER_SHOWCOLORLABEL5HINT;显示被标记为紫色的照片\n快捷键：Alt-5 FILEBROWSER_SHOWDIRHINT;显示文件夹中所有图片 FILEBROWSER_SHOWEDITEDHINT;显示已编辑的照片\n快捷键：7 FILEBROWSER_SHOWEDITEDNOTHINT;显示未编辑的照片\n快捷键：6 FILEBROWSER_SHOWEXIFINFO;显示Exif信息\n\n快捷键：\ni - 多编辑标签页模式, \nAlt-i - 单编辑标签模式 FILEBROWSER_SHOWNOTTRASHHINT;仅显示未进入垃圾箱的照片 FILEBROWSER_SHOWORIGINALHINT;仅显示原图\n\n当多张文件名相同，但扩展名不同的图片存在时，在参数设置-文件浏览器-已知扩展名列表中，扩展名排得更靠上的图片会被当作这些图片的原图。 FILEBROWSER_SHOWRANK1HINT;显示1星图片 FILEBROWSER_SHOWRANK2HINT;显示2星图片 FILEBROWSER_SHOWRANK3HINT;显示3星图片 FILEBROWSER_SHOWRANK4HINT;显示4星图片 FILEBROWSER_SHOWRANK5HINT;显示5星图片 FILEBROWSER_SHOWRECENTLYSAVEDHINT;显示保存的图片\n快捷键：Alt-7 FILEBROWSER_SHOWRECENTLYSAVEDNOTHINT;显示未保存的图片\n快捷键：Alt-6 FILEBROWSER_SHOWTRASHHINT;显示垃圾箱内容 FILEBROWSER_SHOWUNCOLORHINT;显示没有颜色标记的照片\n快捷键：Alt-0 FILEBROWSER_SHOWUNRANKHINT;显示未评星图片 FILEBROWSER_THUMBSIZE;缩略图大小 FILEBROWSER_UNRANK_TOOLTIP;未评级\n快捷键：Shift-0 FILEBROWSER_ZOOMINHINT;增大缩略图 FILEBROWSER_ZOOMOUTHINT;缩小缩略图 FILECHOOSER_FILTER_ANY;所有文件 FILECHOOSER_FILTER_COLPROF;色彩配置文件 FILECHOOSER_FILTER_CURVE;曲线文件 FILECHOOSER_FILTER_LCP;镜头矫正配置文件 FILECHOOSER_FILTER_PP;处理预设文件 FILECHOOSER_FILTER_SAME;与当前照片格式相同 FILECHOOSER_FILTER_TIFF;TIFF文件 GENERAL_ABOUT;关于 GENERAL_AFTER;处理后 GENERAL_APPLY;应用 GENERAL_ASIMAGE;跟随图像 GENERAL_AUTO;自动 GENERAL_BEFORE;处理前 GENERAL_CANCEL;取消 GENERAL_CLOSE;关闭 GENERAL_CURRENT;当前 GENERAL_DISABLE;禁用 GENERAL_DISABLED;禁用 GENERAL_ENABLE;启用 GENERAL_ENABLED;开启 GENERAL_FILE;文件 GENERAL_HELP;帮助 GENERAL_LANDSCAPE;横向 GENERAL_NA;不适用 GENERAL_NO;否 GENERAL_NONE;无 GENERAL_OK;确定 GENERAL_OPEN;打开 GENERAL_PORTRAIT;纵向 GENERAL_RESET;重置 GENERAL_SAVE;保存 GENERAL_SLIDER;滑条 GENERAL_UNCHANGED;（不改变） GENERAL_WARNING;警告 GIMP_PLUGIN_INFO;欢迎使用RawTherapee的GIMP插件！\n当你完成编辑后，关闭RawTherapee主窗口，图片就会被自动导入到GIMP中 HISTOGRAM_TOOLTIP_B;显示/隐藏蓝色直方图 HISTOGRAM_TOOLTIP_BAR;显示/隐藏RGB指示条 HISTOGRAM_TOOLTIP_CHRO;显示/隐藏色度直方图 HISTOGRAM_TOOLTIP_G;显示/隐藏绿色直方图 HISTOGRAM_TOOLTIP_L;显示/隐藏 CIELAB 亮度直方图 HISTOGRAM_TOOLTIP_MODE;将直方图显示模式切换为线性/对数线性/双对数 HISTOGRAM_TOOLTIP_R;显示/隐藏红色直方图 HISTORY_CHANGED;已更改 HISTORY_CUSTOMCURVE;自定义曲线 HISTORY_FROMCLIPBOARD;从剪贴板 HISTORY_LABEL;历史 HISTORY_MSG_1;图片加载完成 HISTORY_MSG_2;配置加载完成 HISTORY_MSG_3;配置改变 HISTORY_MSG_4;历史浏览 HISTORY_MSG_5;曝光-亮度 HISTORY_MSG_6;曝光-对比度 HISTORY_MSG_7;曝光-黑点 HISTORY_MSG_8;曝光-曝光补偿 HISTORY_MSG_9;曝光-高光压缩 HISTORY_MSG_10;曝光-阴影压缩 HISTORY_MSG_11;曝光-色调曲线1 HISTORY_MSG_12;曝光-自动色阶 HISTORY_MSG_13;曝光-溢出 HISTORY_MSG_14;L*a*b*-明度 HISTORY_MSG_15;L*a*b*-对比度 HISTORY_MSG_16;L*a*b*-黑 HISTORY_MSG_17;亮度高光压缩 HISTORY_MSG_18;亮度阴影压缩 HISTORY_MSG_19;L*a*b*-L*曲线 HISTORY_MSG_20;锐化 HISTORY_MSG_21;USM锐化-半径 HISTORY_MSG_22;USM锐化-数量 HISTORY_MSG_23;USM锐化-阈值 HISTORY_MSG_24;USM锐化-仅锐化边缘 HISTORY_MSG_25;USM锐化-边缘检测半径 HISTORY_MSG_26;USM锐化-边缘容差 HISTORY_MSG_27;USM锐化-光晕控制 HISTORY_MSG_28;USM锐化-光晕控制数量 HISTORY_MSG_29;锐化-方法 HISTORY_MSG_30;RLD-半径 HISTORY_MSG_31;RLD-数量 HISTORY_MSG_32;RLD-衰减 HISTORY_MSG_33;RLD-迭代 HISTORY_MSG_34;镜头矫正-畸变 HISTORY_MSG_35;镜头矫正-暗角 HISTORY_MSG_36;镜头矫正-色差 HISTORY_MSG_37;曝光-自动曝光 HISTORY_MSG_38;白平衡-方法 HISTORY_MSG_39;白平衡-色温 HISTORY_MSG_40;白平衡-色调 HISTORY_MSG_41;曝光-色调曲线1模式 HISTORY_MSG_42;曝光-色调曲线2 HISTORY_MSG_43;曝光-色调曲线2模式 HISTORY_MSG_44;亮度降噪-半径 HISTORY_MSG_45;亮度降噪-边缘容差 HISTORY_MSG_46;色度降噪 HISTORY_MSG_47;色度降噪-半径 HISTORY_MSG_48;色度降噪-边缘容差 HISTORY_MSG_49;色度降噪-边缘敏感度 HISTORY_MSG_50;阴影/高光工具 HISTORY_MSG_51;阴影/高光-高光 HISTORY_MSG_52;阴影/高光-阴影 HISTORY_MSG_53;阴影/高光-高光色调范围 HISTORY_MSG_54;阴影/高光-阴影色调范围 HISTORY_MSG_55;阴影/高光-局部对比度 HISTORY_MSG_56;阴影/高光-半径 HISTORY_MSG_57;粗略旋转 HISTORY_MSG_58;水平翻转 HISTORY_MSG_59;垂直翻转 HISTORY_MSG_60;旋转 HISTORY_MSG_61;自动填充 HISTORY_MSG_62;镜头畸变矫正 HISTORY_MSG_63;选择快照 HISTORY_MSG_64;裁剪 HISTORY_MSG_65;色差矫正 HISTORY_MSG_66;曝光-高光还原 HISTORY_MSG_67;曝光-高光还原数量 HISTORY_MSG_68;曝光-高光还原方法 HISTORY_MSG_69;工作色彩空间 HISTORY_MSG_70;输出色彩空间 HISTORY_MSG_71;输入色彩空间 HISTORY_MSG_72;暗角矫正-数量 HISTORY_MSG_73;通道混合器 HISTORY_MSG_74;调整大小-比例 HISTORY_MSG_75;调整大小-方法 HISTORY_MSG_76;Exif元数据 HISTORY_MSG_77;IPTC元数据 HISTORY_MSG_78;调整大小数据 HISTORY_MSG_79;调整大小-宽度 HISTORY_MSG_80;调整大小-高度 HISTORY_MSG_81;调整大小 HISTORY_MSG_82;档案修改 HISTORY_MSG_83;阴影/高光-锐度蒙板 HISTORY_MSG_84;视角矫正 HISTORY_MSG_85;镜头矫正-LCP档案 HISTORY_MSG_86;RGB曲线-色度模式 HISTORY_MSG_87;脉冲噪声降低 HISTORY_MSG_88;脉冲降噪阈值 HISTORY_MSG_89;降噪 HISTORY_MSG_90;降噪-亮度 HISTORY_MSG_91;降噪-色度主控 HISTORY_MSG_92;降噪-伽马 HISTORY_MSG_93;CbDL-数值 HISTORY_MSG_94;分频反差调整（CbDL） HISTORY_MSG_95;L*a*b*-色度 HISTORY_MSG_96;L*a*b*-a* 曲线 HISTORY_MSG_97;L*a*b*-b* 曲线 HISTORY_MSG_98;去马赛克方法 HISTORY_MSG_99;热像素过滤器 HISTORY_MSG_100;曝光-饱和度 HISTORY_MSG_101;HSV-色相 HISTORY_MSG_102;HSV-饱和度 HISTORY_MSG_103;HSV-亮度 HISTORY_MSG_104;HSV均衡器 HISTORY_MSG_105;去除色边 HISTORY_MSG_106;去除色边-半径 HISTORY_MSG_107;去除色边-阈值 HISTORY_MSG_108;曝光-高光压缩阈值 HISTORY_MSG_109;调整大小-边界限制网格 HISTORY_MSG_110;调整大小-应用到 HISTORY_MSG_111;Lab-避免色彩偏移 HISTORY_MSG_113;Lab-保护 HISTORY_MSG_114;DCB 迭代 HISTORY_MSG_115;伪色抑制 HISTORY_MSG_116;DCB增强 HISTORY_MSG_117;Raw色差矫正-红 HISTORY_MSG_118;Raw色差矫正-蓝 HISTORY_MSG_119;线状噪点过滤器 HISTORY_MSG_120;绿平衡 HISTORY_MSG_121;Raw色差矫正-自动 HISTORY_MSG_122;自动暗场 HISTORY_MSG_123;暗场文件 HISTORY_MSG_124;白点矫正 HISTORY_MSG_126;平场文件 HISTORY_MSG_127;平场-自动选择 HISTORY_MSG_128;平场-模糊半径 HISTORY_MSG_129;平场-模糊类型 HISTORY_MSG_130;自动畸变矫正 HISTORY_MSG_131;降噪-亮度 HISTORY_MSG_132;降噪-色度 HISTORY_MSG_142;边缘锐化-迭代 HISTORY_MSG_143;边缘锐化-数量 HISTORY_MSG_144;微反差-数量 HISTORY_MSG_145;微反差-均匀度 HISTORY_MSG_146;边缘锐化 HISTORY_MSG_147;边缘锐化-仅亮度 HISTORY_MSG_148;微反差 HISTORY_MSG_149;微反差-3×3阵列 HISTORY_MSG_155;Vib-避免色彩偏移 HISTORY_MSG_158;色调映射-力度 HISTORY_MSG_159;色调映射-边缘 HISTORY_MSG_160;色调映射-规模度 HISTORY_MSG_161;色调映射-再加权迭代 HISTORY_MSG_162;色调映射 HISTORY_MSG_163;RGB曲线-红 HISTORY_MSG_164;RGB曲线-绿 HISTORY_MSG_165;RGB曲线-蓝 HISTORY_MSG_166;曝光-重置 HISTORY_MSG_167;去马赛克方法 HISTORY_MSG_168;L*a*b*-CC曲线 HISTORY_MSG_169;L*a*b*-CH曲线 HISTORY_MSG_170;Vibrance-HH曲线 HISTORY_MSG_171;L*a*b*-LC曲线 HISTORY_MSG_172;L*a*b*-限制LC HISTORY_MSG_173;降噪-细节恢复 HISTORY_MSG_174;CIECAM02 HISTORY_MSG_175;CAM02-CAT02色适应 HISTORY_MSG_176;CAM02-观察条件 HISTORY_MSG_177;CAM02-场景亮度 HISTORY_MSG_178;CAM02-观察亮度 HISTORY_MSG_179;CAM02-白点模型 HISTORY_MSG_180;CAM02-明度 (J) HISTORY_MSG_181;CAM02-彩度 (C) HISTORY_MSG_182;CAM02-自动CAT02 HISTORY_MSG_183;CAM02-对比度 (J) HISTORY_MSG_184;CAM02-场景环境 HISTORY_MSG_185;CAM02-色域控制 HISTORY_MSG_186;CAM02-算法 HISTORY_MSG_187;CAM02-红色/肤色保护 HISTORY_MSG_188;CAM02-视明度 (Q) HISTORY_MSG_189;CAM02-对比度 (Q) HISTORY_MSG_190;CAM02-饱和度 (S) HISTORY_MSG_191;CAM02-视彩度 (M) HISTORY_MSG_192;CAM02-色相 (h) HISTORY_MSG_193;CAM02-色调曲线1 HISTORY_MSG_194;CAM02-色调曲线2 HISTORY_MSG_195;CAM02-色调曲线1 HISTORY_MSG_196;CAM02-色调曲线2 HISTORY_MSG_197;CAM02-色彩曲线 HISTORY_MSG_198;CAM02-色彩曲线 HISTORY_MSG_199;CAM02-输出直方图 HISTORY_MSG_200;CAM02-色调映射 HISTORY_MSG_201;降噪-色度-红&绿 HISTORY_MSG_202;降噪-色度-蓝&黄 HISTORY_MSG_203;降噪-色彩空间 HISTORY_MSG_204;LMMSE优化步长 HISTORY_MSG_205;CAM02-热像素/坏点过滤器 HISTORY_MSG_206;CAT02-自动场景亮度 HISTORY_MSG_207;去除色边-色相曲线 HISTORY_MSG_208;白平衡-蓝红均衡器 HISTORY_MSG_210;渐变-角度 HISTORY_MSG_211;渐变滤镜 HISTORY_MSG_212;暗角-力度 HISTORY_MSG_213;暗角滤镜 HISTORY_MSG_214;黑白 HISTORY_MSG_215;黑白-通道混合-红 HISTORY_MSG_216;黑白-通道混合-绿 HISTORY_MSG_217;黑白-通道混合-蓝 HISTORY_MSG_218;黑白-伽马-红 HISTORY_MSG_219;黑白-伽马-绿 HISTORY_MSG_220;黑白-伽马-蓝 HISTORY_MSG_221;黑白-色彩过滤 HISTORY_MSG_222;黑白-预设 HISTORY_MSG_223;黑白-通道混合-橙 HISTORY_MSG_224;黑白-通道混合-黄 HISTORY_MSG_225;黑白-通道混合-青 HISTORY_MSG_226;黑白-通道混合-品红 HISTORY_MSG_227;黑白-通道混合-紫 HISTORY_MSG_228;黑白-亮度均衡器 HISTORY_MSG_229;黑白-亮度均衡器 HISTORY_MSG_230;黑白-方法 HISTORY_MSG_231;黑白-‘黑白前’曲线 HISTORY_MSG_232;黑白-‘黑白前’曲线类型 HISTORY_MSG_233;黑白-‘黑白后’曲线 HISTORY_MSG_234;黑白-‘黑白前’曲线类型 HISTORY_MSG_235;黑白-通道混合-自动 HISTORY_MSG_237;黑白-通道混合 HISTORY_MSG_238;渐变-羽化 HISTORY_MSG_239;渐变-力度 HISTORY_MSG_240;渐变-中心 HISTORY_MSG_241;暗角-羽化 HISTORY_MSG_242;暗角-圆度 HISTORY_MSG_243;暗角矫正-半径 HISTORY_MSG_244;暗角矫正-力度 HISTORY_MSG_245;暗角矫正-中心 HISTORY_MSG_246;L*a*b*-CL曲线 HISTORY_MSG_247;L*a*b*-LH曲线 HISTORY_MSG_248;L*a*b*-HH曲线 HISTORY_MSG_249;CbDL-阈值 HISTORY_MSG_251;黑白-算法 HISTORY_MSG_252;CbDL-肤色保护 HISTORY_MSG_253;CbDL-减轻杂点 HISTORY_MSG_254;CbDL-肤色 HISTORY_MSG_255;降噪-中值滤波器 HISTORY_MSG_256;降噪-中值滤波器-方法 HISTORY_MSG_257;色调分离 HISTORY_MSG_258;色调分离-色彩曲线 HISTORY_MSG_259;色调分离-不透明度曲线 HISTORY_MSG_260;色调分离-a*[b*]不透明度 HISTORY_MSG_261;色调分离-方法 HISTORY_MSG_262;色调分离-b*不透明度 HISTORY_MSG_263;色调分离-阴影-红 HISTORY_MSG_264;色调分离-阴影-绿 HISTORY_MSG_265;色调分离-阴影-蓝 HISTORY_MSG_266;色调分离-中间调-红 HISTORY_MSG_267;色调分离-中间调-绿 HISTORY_MSG_268;色调分离-中间调-蓝 HISTORY_MSG_269;色调分离-高光-红 HISTORY_MSG_270;色调分离-高光-绿 HISTORY_MSG_271;色调分离-高光-蓝 HISTORY_MSG_272;色调分离-平衡 HISTORY_MSG_273;色调分离-阴/中/高色彩平衡 HISTORY_MSG_276;色调分离-不透明度 HISTORY_MSG_278;色调分离-保持亮度 HISTORY_MSG_279;色调分离-阴影 HISTORY_MSG_280;色调分离-高光 HISTORY_MSG_281;色调分离-饱和度力度 HISTORY_MSG_282;色调分离-饱和度阈值 HISTORY_MSG_283;色调分离-力度 HISTORY_MSG_284;色调分离-自动饱和度保护 HISTORY_MSG_285;降噪-中值滤波-方法 HISTORY_MSG_286;降噪-中值滤波-类型 HISTORY_MSG_287;降噪-中值滤波-迭代 HISTORY_MSG_288;平场-溢出控制 HISTORY_MSG_289;平场-溢出控制-自动 HISTORY_MSG_293;胶片模拟 HISTORY_MSG_294;胶片模拟-力度 HISTORY_MSG_295;胶片模拟-胶片 HISTORY_MSG_296;降噪-亮度曲线 HISTORY_MSG_297;降噪-模式 HISTORY_MSG_298;坏点过滤器 HISTORY_MSG_299;降噪-色度曲线 HISTORY_MSG_301;降噪-亮度控制 HISTORY_MSG_302;降噪-色度方法 HISTORY_MSG_303;降噪-色度方法 HISTORY_MSG_304;小波-反差等级 HISTORY_MSG_305;小波层级 HISTORY_MSG_306;小波-处理 HISTORY_MSG_307;小波-处理 HISTORY_MSG_308;小波-处理方向 HISTORY_MSG_309;小波-边缘锐度-细节 HISTORY_MSG_310;小波-残差图-肤色保护 HISTORY_MSG_311;小波-小波层级 HISTORY_MSG_312;小波-残差图-阴影阈值 HISTORY_MSG_315;小波-残差图-反差 HISTORY_MSG_318;小波-反差-高光等级 HISTORY_MSG_319;小波-反差-高光范围 HISTORY_MSG_320;小波-反差-阴影范围 HISTORY_MSG_321;小波-反差-阴影等级 HISTORY_MSG_338;小波-边缘锐度-半径 HISTORY_MSG_339;小波-边缘锐度-力度 HISTORY_MSG_340;小波-力度 HISTORY_MSG_341;小波-边缘表现 HISTORY_MSG_347;小波-去噪-第1级 HISTORY_MSG_348;小波-去噪-第2级 HISTORY_MSG_349;小波-去噪-第3级 HISTORY_MSG_357;小波-去噪-边缘锐度挂钩 HISTORY_MSG_359;热像素/坏点阈值 HISTORY_MSG_360;色调映射-伽马 HISTORY_MSG_371;调整大小后加锐（PRS） HISTORY_MSG_372;PRS USM-半径 HISTORY_MSG_373;PRS USM-数量 HISTORY_MSG_374;PRS USM-阈值 HISTORY_MSG_375;PRS USM-仅加锐边缘 HISTORY_MSG_376;PRS USM-边缘检测半径 HISTORY_MSG_377;PRS USM-边缘容差 HISTORY_MSG_378;PRS USM-光晕控制 HISTORY_MSG_379;PRS USM-光晕控制数量 HISTORY_MSG_380;PRS-方法 HISTORY_MSG_381;PRS RLD-半径 HISTORY_MSG_382;PRS RLD-数量 HISTORY_MSG_383;PRS RLD-衰减 HISTORY_MSG_384;PRS RLD-迭代 HISTORY_MSG_405;小波-去噪-第4级 HISTORY_MSG_440;CbDL-方法 HISTORY_MSG_445;Raw子图像 HISTORY_MSG_449;像素偏移-ISO适应 HISTORY_MSG_452;像素偏移-显示动体 HISTORY_MSG_453;像素偏移-仅显示动体蒙版 HISTORY_MSG_457;像素偏移-检测红/蓝 HISTORY_MSG_462;像素偏移-检测绿 HISTORY_MSG_464;像素偏移-动体蒙版模糊 HISTORY_MSG_465;像素偏移-模糊半径 HISTORY_MSG_468;像素偏移-填洞 HISTORY_MSG_469;像素偏移-中值 HISTORY_MSG_471;像素偏移-动体补正 HISTORY_MSG_472;像素偏移-顺滑过渡 HISTORY_MSG_473;像素偏移-使用LMMSE HISTORY_MSG_474;像素偏移-亮度均等 HISTORY_MSG_475;像素偏移-均等各通道 HISTORY_MSG_476;CAM02-色温 HISTORY_MSG_477;CAM02-绿色 HISTORY_MSG_478;CAM02-平均亮度 HISTORY_MSG_479;CAM02-CAT02色适应 HISTORY_MSG_480;CAM02-自动CAT02 HISTORY_MSG_481;CAM02-场景色温 HISTORY_MSG_482;CAM02-场景绿色 HISTORY_MSG_483;CAM02-场景平均亮度 HISTORY_MSG_484;CAM02-自动场景亮度 HISTORY_MSG_485;镜头矫正 HISTORY_MSG_486;镜头矫正-相机 HISTORY_MSG_487;镜头矫正-镜头 HISTORY_MSG_488;动态范围压缩（DRC） HISTORY_MSG_489;DRC-细节 HISTORY_MSG_490;DRC-数量 HISTORY_MSG_491;白平衡 HISTORY_MSG_492;RGB曲线 HISTORY_MSG_493;L*a*b*调整 HISTORY_MSG_494;捕图加锐 HISTORY_MSG_CLAMPOOG;超色域色彩溢出 HISTORY_MSG_COLORTONING_LABGRID_VALUE;色调分离-色彩矫正 HISTORY_MSG_COLORTONING_LABREGION_AB;色调分离-色彩矫正 HISTORY_MSG_COLORTONING_LABREGION_CHANNEL;色调分离-通道 HISTORY_MSG_COLORTONING_LABREGION_CHROMATICITYMASK;色调分离-C蒙版 HISTORY_MSG_COLORTONING_LABREGION_HUEMASK;色调分离-H蒙版 HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESS;色调分离-光强度 HISTORY_MSG_COLORTONING_LABREGION_LIGHTNESSMASK;色调分离-L蒙版 HISTORY_MSG_COLORTONING_LABREGION_LIST;色调分离-列表项 HISTORY_MSG_COLORTONING_LABREGION_MASKBLUR;色调分离-区域蒙版模糊 HISTORY_MSG_COLORTONING_LABREGION_OFFSET;色调分离-区域偏移量 HISTORY_MSG_COLORTONING_LABREGION_POWER;色调分离-区域能量 HISTORY_MSG_COLORTONING_LABREGION_SATURATION;色调分离-饱和度 HISTORY_MSG_COLORTONING_LABREGION_SHOWMASK;色调分离-显示蒙版 HISTORY_MSG_COLORTONING_LABREGION_SLOPE;色调分离-区域斜率 HISTORY_MSG_DEHAZE_DEPTH;去雾-纵深 HISTORY_MSG_DEHAZE_ENABLED;去雾 HISTORY_MSG_DEHAZE_LUMINANCE;去雾-仅亮度 HISTORY_MSG_DEHAZE_SHOW_DEPTH_MAP;去雾-显示纵深蒙版 HISTORY_MSG_DEHAZE_STRENGTH;去雾-力度 HISTORY_MSG_DUALDEMOSAIC_AUTO_CONTRAST;双重去马赛克-自动阈值 HISTORY_MSG_DUALDEMOSAIC_CONTRAST;双重去马赛克-反差阈值 HISTORY_MSG_FILMNEGATIVE_ENABLED;胶片负片 HISTORY_MSG_FILMNEGATIVE_VALUES;胶片负片值 HISTORY_MSG_HISTMATCHING;自适应色调曲线 HISTORY_MSG_LOCALCONTRAST_AMOUNT;局部反差-数量 HISTORY_MSG_LOCALCONTRAST_DARKNESS;局部反差-暗部 HISTORY_MSG_LOCALCONTRAST_ENABLED;局部反差 HISTORY_MSG_LOCALCONTRAST_LIGHTNESS;局部反差-亮部 HISTORY_MSG_LOCALCONTRAST_RADIUS;局部反差-半径 HISTORY_MSG_METADATA_MODE;元数据复制模式 HISTORY_MSG_MICROCONTRAST_CONTRAST;微反差-反差阈值 HISTORY_MSG_PDSHARPEN_AUTO_CONTRAST;捕图加锐-自动阈值 HISTORY_MSG_PDSHARPEN_AUTO_RADIUS;捕图加锐-自动半径 HISTORY_MSG_PDSHARPEN_CHECKITER;捕图加锐-自动限制迭代 HISTORY_MSG_PDSHARPEN_CONTRAST;捕图加锐-反差阈值 HISTORY_MSG_PDSHARPEN_ITERATIONS;捕图加锐-迭代 HISTORY_MSG_PDSHARPEN_RADIUS;捕图加锐-半径 HISTORY_MSG_PDSHARPEN_RADIUS_BOOST;捕图加锐-边缘半径值提升 HISTORY_MSG_PIXELSHIFT_DEMOSAIC;像素偏移-动体部分去马赛克算法 HISTORY_MSG_PREPROCESS_LINEDENOISE_DIRECTION;线状噪点过滤方向 HISTORY_MSG_PREPROCESS_PDAFLINESFILTER;PDAF条纹过滤 HISTORY_MSG_PRSHARPEN_CONTRAST;PRS-反差阈值 HISTORY_MSG_RAWCACORR_AUTOIT;Raw色差矫正-迭代 HISTORY_MSG_RAWCACORR_COLORSHIFT;Raw色差矫正-避免偏色 HISTORY_MSG_RAW_BORDER;Raw边界 HISTORY_MSG_RESIZE_ALLOWUPSCALING;调整大小-允许升采样 HISTORY_MSG_SHARPENING_BLUR;锐化-模糊半径 HISTORY_MSG_SHARPENING_CONTRAST;锐化-反差阈值 HISTORY_MSG_SH_COLORSPACE;阴影/高光-色彩空间 HISTORY_MSG_SOFTLIGHT_ENABLED;柔光 HISTORY_MSG_SOFTLIGHT_STRENGTH;柔光-力度 HISTORY_MSG_TM_FATTAL_ANCHOR;DRC-锚点 HISTORY_MSG_TRANS_Method;几何-方法 HISTORY_NEWSNAPSHOT;新建快照 HISTORY_NEWSNAPSHOT_TOOLTIP;快捷键：Alt-s HISTORY_SNAPSHOT;快照 HISTORY_SNAPSHOTS;快照 ICCPROFCREATOR_COPYRIGHT;版权： ICCPROFCREATOR_CUSTOM;自定义 ICCPROFCREATOR_DESCRIPTION;描述： ICCPROFCREATOR_SAVEDIALOG_TITLE;将ICC档案保存为... IPTCPANEL_CATEGORY;类别 IPTCPANEL_CITY;城市 IPTCPANEL_COPYHINT;将IPTC设置复制到剪贴板 IPTCPANEL_COUNTRY;国家 IPTCPANEL_CREDIT;提供者 IPTCPANEL_CREDITHINT;图片提供者, 未必是作者 IPTCPANEL_DATECREATED;创作日期 IPTCPANEL_EMBEDDED;内嵌 IPTCPANEL_EMBEDDEDHINT;将IPTC数据重置为图片内嵌数据 IPTCPANEL_HEADLINE;摘要 IPTCPANEL_INSTRUCTIONS;指令 IPTCPANEL_KEYWORDS;关键词 IPTCPANEL_PASTEHINT;粘贴剪贴板内的IPTC设置 IPTCPANEL_RESET;重置 IPTCPANEL_RESETHINT;重置为默认配置 IPTCPANEL_SOURCE;来源 IPTCPANEL_TITLE;标题 MAIN_BUTTON_FULLSCREEN;全屏 MAIN_BUTTON_PREFERENCES;参数设置 MAIN_BUTTON_PUTTOQUEUE_TOOLTIP;将当前图片放入处理队列中\n快捷键：Ctrl+b MAIN_BUTTON_SAVE;保存图片 MAIN_BUTTON_SAVE_TOOLTIP;保存当前图像\n快捷键：Ctrl+S MAIN_BUTTON_SENDTOEDITOR;发送到编辑器 MAIN_BUTTON_SENDTOEDITOR_TOOLTIP;使用外部工具编辑当前图像\n快捷键：Ctrl+E MAIN_BUTTON_SHOWHIDESIDEPANELS_TOOLTIP;显示/隐藏全部侧边栏\n快捷键：m MAIN_BUTTON_UNFULLSCREEN;退出全屏 MAIN_FRAME_EDITOR;编辑器 MAIN_FRAME_EDITOR_TOOLTIP;编辑器\n快捷键：Ctrl-F4 MAIN_FRAME_FILEBROWSER;文件浏览器 MAIN_FRAME_FILEBROWSER_TOOLTIP;文件浏览器\n快捷键：Ctrl-F2 MAIN_FRAME_PLACES;位置 MAIN_FRAME_PLACES_ADD;添加 MAIN_FRAME_PLACES_DEL;移除 MAIN_FRAME_QUEUE;批处理队列 MAIN_FRAME_QUEUE_TOOLTIP;处理队列\n快捷键：Ctrl-F3 MAIN_FRAME_RECENT;最近使用的文件夹 MAIN_MSG_ALREADYEXISTS;该文件已存在 MAIN_MSG_CANNOTLOAD;无法加载图片 MAIN_MSG_CANNOTSAVE;文件保存中出错 MAIN_MSG_CANNOTSTARTEDITOR;无法启动编辑器 MAIN_MSG_CANNOTSTARTEDITOR_SECONDARY;请在“参数设置”中设置正确的路径 MAIN_MSG_EMPTYFILENAME;未指定文件名！ MAIN_MSG_NAVIGATOR;导航器 MAIN_MSG_OPERATIONCANCELLED;取消 MAIN_MSG_PATHDOESNTEXIST;路径\n\n%1\n\n不存在。请在参数设置中设定正确的路径 MAIN_MSG_QOVERWRITE;是否覆盖？ MAIN_MSG_SETPATHFIRST;你需要先在参数设置中设定目标路径才能使用本功能！ MAIN_MSG_TOOMANYOPENEDITORS;已打开的编辑器过多\n请关闭一个编辑器以继续 MAIN_MSG_WRITEFAILED;写入\n"%1"失败\n\n确保文件夹存在且你有写入权限 MAIN_TAB_ADVANCED;高级 MAIN_TAB_ADVANCED_TOOLTIP;快捷键：Alt-a MAIN_TAB_COLOR;色彩 MAIN_TAB_COLOR_TOOLTIP;快捷键：Alt-c MAIN_TAB_DETAIL;细节 MAIN_TAB_DETAIL_TOOLTIP;快捷键：Alt-d MAIN_TAB_DEVELOP;批量调整 MAIN_TAB_EXIF;Exif MAIN_TAB_EXPORT;快速导出 MAIN_TAB_EXPOSURE;曝光 MAIN_TAB_EXPOSURE_TOOLTIP;快捷键：Alt-e MAIN_TAB_FAVORITES;收藏 MAIN_TAB_FAVORITES_TOOLTIP;快捷键： Alt-u MAIN_TAB_FILTER;过滤器 MAIN_TAB_INSPECT;检视 MAIN_TAB_IPTC;IPTC MAIN_TAB_METADATA;元数据 MAIN_TAB_METADATA_TOOLTIP;快捷键：Alt-m MAIN_TAB_RAW;Raw MAIN_TAB_RAW_TOOLTIP;快捷键：Alt-R MAIN_TAB_TRANSFORM;变换 MAIN_TAB_TRANSFORM_TOOLTIP;快捷键：Alt-t MAIN_TOOLTIP_BACKCOLOR0;预览图的背景色：基于主题调整\n快捷键：9 MAIN_TOOLTIP_BACKCOLOR1;预览图的背景色：黑色\n快捷键：9 MAIN_TOOLTIP_BACKCOLOR2;预览图的背景色：白色\n快捷键：9 MAIN_TOOLTIP_BACKCOLOR3;预览图的背景色：中灰色\n快捷键：9 MAIN_TOOLTIP_HIDEHP;显示/隐藏左面板(包含历史，快捷键：H) MAIN_TOOLTIP_INDCLIPPEDH;高光溢出提示 MAIN_TOOLTIP_INDCLIPPEDS;阴影不足提示 MAIN_TOOLTIP_PREVIEWB;预览蓝色通道\n快捷键：b MAIN_TOOLTIP_PREVIEWFOCUSMASK;预览合焦蒙版\n快捷键：Shift-f\n\n在浅景深，噪点少，放大得大的图片中更加精准\n在噪点多的图像中，把图片缩放到10%-30%以提升检测精准度 MAIN_TOOLTIP_PREVIEWG;预览绿色通道\n快捷键：g MAIN_TOOLTIP_PREVIEWL;预览亮度\n快捷键：v\n\n0.299*R + 0.587*G + 0.114*B MAIN_TOOLTIP_PREVIEWR;预览红色通道\n快捷键：r MAIN_TOOLTIP_PREVIEWSHARPMASK;预览锐化反差蒙版\n快捷键：p MAIN_TOOLTIP_QINFO;图片简略信息 MAIN_TOOLTIP_SHOWHIDELP1;显示/隐藏左面板\n快捷键：l MAIN_TOOLTIP_SHOWHIDERP1;显示/隐藏右面板\n快捷键：Alt-l MAIN_TOOLTIP_SHOWHIDETP1;显示/隐藏上面板\n快捷键：Shift-L MAIN_TOOLTIP_THRESHOLD;阈值 MAIN_TOOLTIP_TOGGLE;切换处理前/处理后视图\n快捷键：Shift-b MONITOR_PROFILE_SYSTEM;系统默认 NAVIGATOR_B;B: NAVIGATOR_G;G: NAVIGATOR_H;H: NAVIGATOR_LAB_A;a: NAVIGATOR_LAB_B;b: NAVIGATOR_LAB_L;L: NAVIGATOR_NA; -- NAVIGATOR_R;R: NAVIGATOR_S;S: NAVIGATOR_V;V: NAVIGATOR_XY_FULL;宽 = %1, 高 = %2 NAVIGATOR_XY_NA;x = n/a, y = n/a OPTIONS_BUNDLED_MISSING;找不到附带档案"%1"！\n\n程序可能受损。\n\n将使用内部默认值 OPTIONS_DEFIMG_MISSING;非Raw文件照片的默认档案无法被找到或是没有被设置\n\n请检查你的档案所在的文件夹，它可能已不存在或是受损\n\n现将使用"%1"作为替代 OPTIONS_DEFRAW_MISSING;Raw照片的默认档案无法被找到或是没有被设置\n\n请检查你的档案所在的文件夹，它可能已不存在或是受损\n\n现将使用"%1"作为替代 PARTIALPASTE_ADVANCEDGROUP;高级设置 PARTIALPASTE_BASICGROUP;基本设置 PARTIALPASTE_CACORRECTION;色彩矫正 PARTIALPASTE_CHANNELMIXER;通道混合器 PARTIALPASTE_CHANNELMIXERBW;黑白 PARTIALPASTE_COARSETRANS;90°旋转/翻转 PARTIALPASTE_COLORAPP;CIECAM02 PARTIALPASTE_COLORGROUP;色彩相关设定 PARTIALPASTE_COLORTONING;色调 PARTIALPASTE_COMMONTRANSFORMPARAMS;自动填充 PARTIALPASTE_COMPOSITIONGROUP;构图设置 PARTIALPASTE_CROP;裁剪 PARTIALPASTE_DARKFRAMEAUTOSELECT;暗场自动选择 PARTIALPASTE_DARKFRAMEFILE;暗场文件 PARTIALPASTE_DEFRINGE;去除色边 PARTIALPASTE_DEHAZE;去雾 PARTIALPASTE_DETAILGROUP;细节设置 PARTIALPASTE_DIALOGLABEL;选择性粘贴配置 PARTIALPASTE_DIRPYRDENOISE;降噪 PARTIALPASTE_DIRPYREQUALIZER;分频反差调整 PARTIALPASTE_DISTORTION;畸变矫正 PARTIALPASTE_EPD;色调映射 PARTIALPASTE_EQUALIZER;小波变换层级 PARTIALPASTE_EVERYTHING;全部 PARTIALPASTE_EXIFCHANGES;对exif所做的修改 PARTIALPASTE_EXPOSURE;曝光 PARTIALPASTE_FILMNEGATIVE;胶片负片 PARTIALPASTE_FILMSIMULATION;胶片模拟 PARTIALPASTE_FLATFIELDAUTOSELECT;平场自动选择 PARTIALPASTE_FLATFIELDBLURRADIUS;平场模糊半径 PARTIALPASTE_FLATFIELDBLURTYPE;平场模糊类型 PARTIALPASTE_FLATFIELDCLIPCONTROL;平场剪切控制 PARTIALPASTE_FLATFIELDFILE;平场文件夹 PARTIALPASTE_GRADIENT;渐变滤镜 PARTIALPASTE_HSVEQUALIZER;HSV均衡器 PARTIALPASTE_ICMSETTINGS;ICM设置 PARTIALPASTE_IMPULSEDENOISE;脉冲噪声降低 PARTIALPASTE_IPTCINFO;IPTC 信息 PARTIALPASTE_LABCURVE;Lab调整 PARTIALPASTE_LENSGROUP;镜头相关设置 PARTIALPASTE_LENSPROFILE;镜片修正档案 PARTIALPASTE_LOCALCONTRAST;局部反差 PARTIALPASTE_METADATA;元数据模式 PARTIALPASTE_METAGROUP;元数据 PARTIALPASTE_PCVIGNETTE;暗角滤镜 PARTIALPASTE_PERSPECTIVE;视角 PARTIALPASTE_PREPROCESS_DEADPIXFILT;坏点过滤器 PARTIALPASTE_PREPROCESS_GREENEQUIL;绿平衡 PARTIALPASTE_PREPROCESS_HOTPIXFILT;热噪过滤器 PARTIALPASTE_PREPROCESS_LINEDENOISE;线状噪点过滤 PARTIALPASTE_PREPROCESS_PDAFLINESFILTER;PDAF条纹过滤器 PARTIALPASTE_PRSHARPENING;调整大小后锐化 PARTIALPASTE_RAWCACORR_AUTO;色差自动矫正 PARTIALPASTE_RAWCACORR_AVOIDCOLORSHIFT;CA避免偏色 PARTIALPASTE_RAWCACORR_CAREDBLUE;红蓝色差 PARTIALPASTE_RAWEXPOS_BLACK;黑色等级 PARTIALPASTE_RAWEXPOS_LINEAR;白点纠正 PARTIALPASTE_RAWGROUP;Raw设置 PARTIALPASTE_RAW_BORDER;Raw边界 PARTIALPASTE_RAW_DCBENHANCE;DCB增强 PARTIALPASTE_RAW_DCBITERATIONS;DCB迭代 PARTIALPASTE_RAW_DMETHOD;去马赛克方法 PARTIALPASTE_RAW_FALSECOLOR;摩尔纹抑制 PARTIALPASTE_RAW_IMAGENUM;子图像 PARTIALPASTE_RAW_LMMSEITERATIONS;LMMSE优化步长 PARTIALPASTE_RAW_PIXELSHIFT;像素偏移 PARTIALPASTE_RESIZE;调整大小 PARTIALPASTE_RGBCURVES;RGB曲线 PARTIALPASTE_ROTATION;旋转 PARTIALPASTE_SHADOWSHIGHLIGHTS;阴影/高光 PARTIALPASTE_SHARPENEDGE;边缘锐化 PARTIALPASTE_SHARPENING;锐化 PARTIALPASTE_SHARPENMICRO;微反差 PARTIALPASTE_SOFTLIGHT;柔光 PARTIALPASTE_TM_FATTAL;动态范围压缩 PARTIALPASTE_VIBRANCE;鲜艳度 PARTIALPASTE_VIGNETTING;暗角矫正 PARTIALPASTE_WHITEBALANCE;白平衡 PREFERENCES_ADD;相加 PREFERENCES_APPEARANCE;外观 PREFERENCES_APPEARANCE_COLORPICKERFONT;拾色器字体 PREFERENCES_APPEARANCE_CROPMASKCOLOR;裁剪蒙版颜色 PREFERENCES_APPEARANCE_MAINFONT;主字体 PREFERENCES_APPEARANCE_NAVGUIDECOLOR;导航器图框颜色 PREFERENCES_APPEARANCE_PSEUDOHIDPI;伪-高DPI模式 PREFERENCES_APPEARANCE_THEME;主题 PREFERENCES_APPLNEXTSTARTUP;下次启动生效 PREFERENCES_AUTOMONPROFILE;使用操作系统主显示器的色彩档案 PREFERENCES_AUTOSAVE_TP_OPEN;在退出时保存工具的展开/折叠状态 PREFERENCES_BATCH_PROCESSING;批处理 PREFERENCES_BEHADDALL;全“相加” PREFERENCES_BEHADDALLHINT;将所有选项设为相加模式。\n批量调整栏的处理参数将在图片当前参数的基础上加减 PREFERENCES_BEHAVIOR;行为 PREFERENCES_BEHSETALL;全“设定” PREFERENCES_BEHSETALLHINT;将所有选项设为设定模式。\n批量调整栏的处理参数将是绝对值，数值会被显示 PREFERENCES_CACHECLEAR;清空 PREFERENCES_CACHECLEAR_ALL;清空所有缓存文件: PREFERENCES_CACHECLEAR_ALLBUTPROFILES;清除所有缓存文件，已缓存的后期档案除外： PREFERENCES_CACHECLEAR_ONLYPROFILES;仅清除已缓存的后期档案： PREFERENCES_CACHECLEAR_SAFETY;仅缓存中的文件会被清除，与原图片保存在一起的后期档案不会受到影响。 PREFERENCES_CACHEMAXENTRIES;最大缓存数量 PREFERENCES_CACHEOPTS;缓存选项 PREFERENCES_CACHETHUMBHEIGHT;最大缩略图高度 PREFERENCES_CHUNKSIZES;每个线程的切片数 PREFERENCES_CHUNKSIZE_RAW_AMAZE;AMaZE去马赛克 PREFERENCES_CHUNKSIZE_RAW_CA;Raw色差矫正 PREFERENCES_CHUNKSIZE_RAW_RCD;RCD去马赛克 PREFERENCES_CHUNKSIZE_RGB;RGB处理 PREFERENCES_CLIPPINGIND;高光溢出提示 PREFERENCES_CLUTSCACHE;HaldCLUT缓存 PREFERENCES_CLUTSCACHE_LABEL;CLUT最大缓存数 PREFERENCES_CLUTSDIR;HaldCLUT路径 PREFERENCES_CMMBPC;黑场补偿 PREFERENCES_CROP;裁剪编辑 PREFERENCES_CROP_AUTO_FIT;自动放大以适应裁剪 PREFERENCES_CROP_GUIDES;在不编辑裁剪区域时，裁剪区域所显示的辅助方式 PREFERENCES_CROP_GUIDES_FRAME;方框 PREFERENCES_CROP_GUIDES_FULL;原方式 PREFERENCES_CROP_GUIDES_NONE;无 PREFERENCES_CURVEBBOXPOS;曲线复制/粘贴按钮位置 PREFERENCES_CURVEBBOXPOS_ABOVE;上 PREFERENCES_CURVEBBOXPOS_BELOW;下 PREFERENCES_CURVEBBOXPOS_LEFT;左 PREFERENCES_CURVEBBOXPOS_RIGHT;右 PREFERENCES_CUSTPROFBUILDPATH;可执行文件路径 PREFERENCES_DARKFRAMEFOUND;找到 PREFERENCES_DARKFRAMESHOTS;张 PREFERENCES_DARKFRAMETEMPLATES;模板 PREFERENCES_DATEFORMAT;日期格式 PREFERENCES_DATEFORMATHINT;你可以使用下列控制符:\n%y ：年\n%m ：月\n%d ：日\n\n例如，ISO 8601标准的时间格式为：\n%y/%m/%d PREFERENCES_DIRDARKFRAMES;暗场图像路径 PREFERENCES_DIRECTORIES;目录 PREFERENCES_DIRHOME;用户文件路径 PREFERENCES_DIRLAST;上次访问路径 PREFERENCES_DIROTHER;其他 PREFERENCES_DIRSELECTDLG;启动时选择图片路径... PREFERENCES_DIRSOFTWARE;软件安装路径 PREFERENCES_EDITORCMDLINE;自定义命令行 PREFERENCES_EDITORLAYOUT;编辑器布局 PREFERENCES_EXTERNALEDITOR;外部编辑器 PREFERENCES_FBROWSEROPTS;文件浏览器选项 PREFERENCES_FILEBROWSERTOOLBARSINGLEROW;在文件浏览器中显示紧凑的工具栏 PREFERENCES_FLATFIELDFOUND;找到 PREFERENCES_FLATFIELDSDIR;平场图像路径 PREFERENCES_FLATFIELDSHOTS;张 PREFERENCES_FLATFIELDTEMPLATES;模板 PREFERENCES_FORIMAGE;用于图片文件 PREFERENCES_FORRAW;用于Raw文件 PREFERENCES_FSTRIP_SAME_THUMB_HEIGHT;令文件浏览器和编辑器的缩略图高度相同 PREFERENCES_FSTRIP_SAME_THUMB_HEIGHT_HINT;若文件浏览器和编辑器的缩略图大小不同，那么在二者间切换时，生成缩略图的用时就会变长 PREFERENCES_GIMPPATH;GIMP安装文件夹 PREFERENCES_HISTOGRAMPOSITIONLEFT;将直方图放置在左面板 PREFERENCES_HISTOGRAM_TOOLTIP;启用后，当前使用的后期配置档案将被用于渲染主直方图和导航栏，不启用则将使用伽马矫正的输出档案进行渲染 PREFERENCES_HLTHRESHOLD;高光溢出阈值 PREFERENCES_ICCDIR;ICC配置路径 PREFERENCES_IMPROCPARAMS;默认图片处理参数 PREFERENCES_INSPECT_LABEL;检视 PREFERENCES_INSPECT_MAXBUFFERS_LABEL;最大缓存图片数 PREFERENCES_INTENT_ABSOLUTE;绝对比色 PREFERENCES_INTENT_PERCEPTUAL;可感知 PREFERENCES_INTENT_RELATIVE;相对比色 PREFERENCES_INTENT_SATURATION;饱和度 PREFERENCES_INTERNALTHUMBIFUNTOUCHED;如果RAW文件没有被修改，显示内嵌JPEG的缩略图 PREFERENCES_LANG;语言 PREFERENCES_LANGAUTODETECT;使用系统语言 PREFERENCES_MAXRECENTFOLDERS;最近访问路径历史记录数 PREFERENCES_MENUGROUPEXTPROGS;组合“打开方式” PREFERENCES_MENUGROUPFILEOPERATIONS;组合“文件操作” PREFERENCES_MENUGROUPLABEL;组合“色彩标签” PREFERENCES_MENUGROUPPROFILEOPERATIONS;组合“后期档案操作” PREFERENCES_MENUGROUPRANK;组合“评级” PREFERENCES_MENUOPTIONS;右键子菜单选项 PREFERENCES_MONINTENT;默认渲染意图 PREFERENCES_MONITOR;显示器 PREFERENCES_MONPROFILE;默认色彩配置文件 PREFERENCES_MONPROFILE_WARNOSX;受MacOS限制, 仅支持sRGB PREFERENCES_MULTITAB;多编辑器标签模式 PREFERENCES_MULTITABDUALMON;多编辑器标签，标签独立模式 PREFERENCES_NAVIGATIONFRAME;导航器 PREFERENCES_OVERLAY_FILENAMES;在文件浏览器的缩略图上显示文件名 PREFERENCES_OVERLAY_FILENAMES_FILMSTRIP;在编辑器的缩略图上显示文件名 PREFERENCES_OVERWRITEOUTPUTFILE;覆盖已存在的输出文件 PREFERENCES_PANFACTORLABEL;拖移速率增幅 PREFERENCES_PARSEDEXT;已知扩展名 PREFERENCES_PARSEDEXTADD;添加扩展名 PREFERENCES_PARSEDEXTADDHINT;输入扩展名并按此按钮将其添加至列表 PREFERENCES_PARSEDEXTDELHINT;从列表中删除选中的扩展名 PREFERENCES_PARSEDEXTDOWNHINT;让选中的扩展名在列表中的位置下降 PREFERENCES_PARSEDEXTUPHINT;让选中的扩展名在列表中的位置上升 PREFERENCES_PERFORMANCE_MEASURE;测速 PREFERENCES_PERFORMANCE_MEASURE_HINT;在控制台记录处理时间 PREFERENCES_PERFORMANCE_THREADS;线程 PREFERENCES_PERFORMANCE_THREADS_LABEL;用于降噪和小波层级的最大线程数（0=自动） PREFERENCES_PREVDEMO;预览去马赛克方法 PREFERENCES_PREVDEMO_FAST;快速 PREFERENCES_PREVDEMO_LABEL;小于100%缩放查看时使用的去马赛克算法： PREFERENCES_PREVDEMO_SIDECAR;与PP3相同 PREFERENCES_PRINTER;打印机 (软打样) PREFERENCES_PROFILEHANDLING;图片处理配置管理 PREFERENCES_PROFILELOADPR;配置文件读取优先级 PREFERENCES_PROFILEPRCACHE;缓存中的配置文件 PREFERENCES_PROFILEPRFILE;图片所在目录的配置文件 PREFERENCES_PROFILESAVEBOTH;将配置文件存放到缓存和输入图片所在位置 PREFERENCES_PROFILESAVECACHE;将配置文件存放到缓存 PREFERENCES_PROFILESAVEINPUT;将配置文件与图片并列存放 PREFERENCES_PROFILESAVELOCATION;将配置文件存放到缓存和输入图片所在目录 PREFERENCES_PROFILE_NONE;无 PREFERENCES_PROPERTY;属性 PREFERENCES_PRTINTENT;渲染意图 PREFERENCES_PRTPROFILE;色彩配置文件 PREFERENCES_PSPATH;Adobe Photoshop安装路径 PREFERENCES_REMEMBERZOOMPAN;记忆图片的缩放和拖动位置 PREFERENCES_REMEMBERZOOMPAN_TOOLTIP;当打开新图片时，记忆上一张图片放大的百分比和被拖动到的位置。\n\n这个选项仅在使用“单编辑器模式”且“小于100%缩放查看时使用的去马赛克方法”被设为“与PP3相同”时才有效 PREFERENCES_SAVE_TP_OPEN_NOW;保存工具的展开/折叠状态 PREFERENCES_SELECTLANG;选择语言 PREFERENCES_SERIALIZE_TIFF_READ;TIFF读取设定 PREFERENCES_SERIALIZE_TIFF_READ_LABEL;序列化载入TIFF文件 PREFERENCES_SERIALIZE_TIFF_READ_TOOLTIP;启用此选项后，在打开包含大量无压缩TIFF的文件夹时，缩略图生成速度会加快 PREFERENCES_SET;设定 PREFERENCES_SHOWBASICEXIF;显示基本Exif信息 PREFERENCES_SHOWDATETIME;显示时间日期 PREFERENCES_SHOWEXPOSURECOMPENSATION;附带曝光补偿 PREFERENCES_SHOWFILMSTRIPTOOLBAR;显示“数码底片夹”栏 PREFERENCES_SHTHRESHOLD;阴影过暗阈值 PREFERENCES_SINGLETAB;单编辑器标签模式 PREFERENCES_SINGLETABVERTAB;单编辑器标签模式, 标签栏垂直 PREFERENCES_SND_HELP;输入完整路径来指定声音文件, 或者留空表示无声。\nWindows系统声音可以使用"SystemDefault", "SystemAsterisk" 等\nLinux则可以使用 "complete", "windows-attention"等 PREFERENCES_SND_LNGEDITPROCDONE;编辑器处理完成 PREFERENCES_SND_QUEUEDONE;完成队列 PREFERENCES_SND_THRESHOLDSECS;等待秒数 PREFERENCES_STARTUPIMDIR;启动时路径 PREFERENCES_TAB_BROWSER;文件浏览器 PREFERENCES_TAB_COLORMGR;色彩管理 PREFERENCES_TAB_DYNAMICPROFILE;动态预设规则 PREFERENCES_TAB_GENERAL;通用 PREFERENCES_TAB_IMPROC;图片处理 PREFERENCES_TAB_PERFORMANCE;性能 PREFERENCES_TAB_SOUND;音效 PREFERENCES_THUMBNAIL_INSPECTOR_JPEG;内嵌JPEG预览 PREFERENCES_THUMBNAIL_INSPECTOR_MODE;展示的图片 PREFERENCES_THUMBNAIL_INSPECTOR_RAW;中性Raw渲染图 PREFERENCES_THUMBNAIL_INSPECTOR_RAW_IF_NO_JPEG_FULLSIZE;若内嵌JPEG为全尺寸，则预览它；否则预览中性Raw PREFERENCES_TP_LABEL;工具栏 PREFERENCES_TP_VSCROLLBAR;隐藏垂直滚动条 PREFERENCES_USEBUNDLEDPROFILES;启用内置预设 PREFERENCES_WORKFLOW;排版 PROFILEPANEL_COPYPPASTE;要复制的参数 PROFILEPANEL_GLOBALPROFILES;附带档案 PROFILEPANEL_LABEL;处理参数配置 PROFILEPANEL_LOADDLGLABEL;加载处理参数为... PROFILEPANEL_LOADPPASTE;要加载的参数 PROFILEPANEL_MODE_TIP;后期档案应用模式。\n\n按下按钮：部分性档案将被转化为全面性档案；没有被使用的工具将会用预定的参数得到处理。\n\n松开按钮：档案按照其制作时的形式被应用，只有被调整过的工具参数会被应用。 PROFILEPANEL_MYPROFILES;我的档案 PROFILEPANEL_PASTEPPASTE;要粘贴的参数 PROFILEPANEL_PCUSTOM;自定义 PROFILEPANEL_PDYNAMIC;动态 PROFILEPANEL_PFILE;由文件 PROFILEPANEL_PINTERNAL;中性 PROFILEPANEL_PLASTSAVED;上次保存 PROFILEPANEL_SAVEDLGLABEL;保存处理参数为... PROFILEPANEL_SAVEPPASTE;要保存的参数 PROFILEPANEL_TOOLTIPCOPY;将当前配置复制到剪贴板 PROFILEPANEL_TOOLTIPLOAD;由文件加载配置 PROFILEPANEL_TOOLTIPPASTE;从剪贴板粘贴配置 PROFILEPANEL_TOOLTIPSAVE;保存当前配置 PROGRESSBAR_DECODING;解码中... PROGRESSBAR_GREENEQUIL;绿平衡... PROGRESSBAR_HLREC;高光还原... PROGRESSBAR_HOTDEADPIXELFILTER;热像素/坏点过滤... PROGRESSBAR_LINEDENOISE;线状噪点过滤... PROGRESSBAR_LOADING;图片加载中... PROGRESSBAR_LOADINGTHUMBS;读取缩略图... PROGRESSBAR_LOADJPEG;JPEG文件加载中... PROGRESSBAR_LOADPNG;PNG文件加载中... PROGRESSBAR_LOADTIFF;TIFF文件加载中... PROGRESSBAR_NOIMAGES;未找到图片 PROGRESSBAR_PROCESSING;图片处理中... PROGRESSBAR_PROCESSING_PROFILESAVED;处理配置档案已保存 PROGRESSBAR_RAWCACORR;Raw色差矫正... PROGRESSBAR_READY;就绪 PROGRESSBAR_SAVEJPEG;JPEG文件保存中... PROGRESSBAR_SAVEPNG;PNG文件保存中... PROGRESSBAR_SAVETIFF;TIFF文件保存中... PROGRESSBAR_SNAPSHOT_ADDED;快照已添加 QINFO_FRAMECOUNT;%2帧 QINFO_HDR;HDR / %2帧 QINFO_ISO;ISO QINFO_NOEXIF;Exif数据不可用 QINFO_PIXELSHIFT;像素偏移/ %2帧 QUEUE_AUTOSTART;自动开始 QUEUE_AUTOSTART_TOOLTIP;当新工作被发送到队列后，立刻自动开始处理 QUEUE_DESTFILENAME;路径和文件名 QUEUE_FORMAT_TITLE;文件格式 QUEUE_LOCATION_FOLDER;保存至文件夹 QUEUE_LOCATION_TEMPLATE;使用模板 QUEUE_LOCATION_TEMPLATE_TOOLTIP;根据图片的位置，评级，被置于垃圾桶与否，或是在队列中的位次来决定其被保存的位置。\n\n以这个路径为例：\n/home/tom/photos/2010-10-31/photo1.raw\n下列格式化的字符串意义如下：\n%d4 = home\n%d3 = tom\n%d2 = photos\n%d1 = 2010-10-31\n%f = photo1\n%p1 = /home/tom/photos/2010-10-31/\n%p2 = /home/tom/photos/\n%p3 = /home/tom/\n%p4 = /home/\n\n%r（在文件名中）会变为图片的评级。若图片无评级，则变为'0'。若图片被置于垃圾箱，则变为'x'。\n\n%s1, ..., %s9会变为照片在队列中的排序位次。"%s"后面所跟的数字规定着文件名的长度，比如使用%s3导出队列中的第一张照片，其将被命名为'001'。\n\n如果你想把图片保存到和原图相同的目录，输入：\n%p1/%f\n\n如果你想把图片保存到原图片所在文件夹的'converted'子文件夹下，输入：\n%p1/converted/%f\n\n如果你想把图片保存到\n'/home/tom/photos/converted/2010-10-31'，输入：\n%p2/converted/%d1/%f QUEUE_LOCATION_TITLE;输出位置 QUEUE_STARTSTOP_TOOLTIP;开始/停止处理队列中的图像\n\n快捷键：Ctrl+s SAMPLEFORMAT_0;未知数据格式 SAMPLEFORMAT_16;16-bit浮点数 SAMPLEFORMAT_32;24-bit浮点数 SAMPLEFORMAT_64;32-bit浮点数 SAVEDLG_AUTOSUFFIX;自动加后缀到已经存在的文件 SAVEDLG_FILEFORMAT;文件格式 SAVEDLG_FILEFORMAT_FLOAT;浮点数 SAVEDLG_FORCEFORMATOPTS;强制保存选项 SAVEDLG_JPEGQUAL;JPEG质量 SAVEDLG_PUTTOQUEUE;放入队列 SAVEDLG_PUTTOQUEUEHEAD;放在处理队列首位 SAVEDLG_PUTTOQUEUETAIL;放在处理队列末位 SAVEDLG_SAVEIMMEDIATELY;立即保存 SAVEDLG_SAVESPP;随图片保存处理参数 SAVEDLG_SUBSAMP;二次抽样 SAVEDLG_SUBSAMP_1;极限压缩 SAVEDLG_SUBSAMP_2;平衡 SAVEDLG_SUBSAMP_3;质量至优 SAVEDLG_TIFFUNCOMPRESSED;无压缩TIFF SAVEDLG_WARNFILENAME;文件将被命名 TOOLBAR_TOOLTIP_CROP;裁剪选择\n快捷键：c TOOLBAR_TOOLTIP_HAND;手形工具\n快捷键：n TOOLBAR_TOOLTIP_STRAIGHTEN;基准线选择\n快捷键：s TOOLBAR_TOOLTIP_WB;白平衡采样\n快捷键：w TP_BWMIX_ALGO_LI;线性 TP_BWMIX_ALGO_SP;特定效果 TP_BWMIX_AUTOCH;自动 TP_BWMIX_CHANNEL;亮度均衡器 TP_BWMIX_CURVEEDITOR1;‘黑白前’曲线 TP_BWMIX_CURVEEDITOR2;‘黑白后’曲线 TP_BWMIX_CURVEEDITOR_AFTER_TOOLTIP;黑白转换之后的色调曲线，在处理流程的最后 TP_BWMIX_CURVEEDITOR_BEFORE_TOOLTIP;黑白转换之前的色调曲线，可能会算入彩色部分 TP_BWMIX_CURVEEDITOR_LH_TOOLTIP;根据色相调整亮度，L=f(H)\n注意极端值，因为其可能导致杂点 TP_BWMIX_FILTER;色彩过滤 TP_BWMIX_FILTER_BLUE;蓝 TP_BWMIX_FILTER_BLUEGREEN;蓝-绿 TP_BWMIX_FILTER_GREEN;绿 TP_BWMIX_FILTER_GREENYELLOW;绿-黄 TP_BWMIX_FILTER_NONE;无 TP_BWMIX_FILTER_PURPLE;紫 TP_BWMIX_FILTER_RED;红 TP_BWMIX_FILTER_REDYELLOW;红-黄 TP_BWMIX_FILTER_TOOLTIP;色彩过滤能模拟使用色彩滤片所拍摄出的照片。色彩滤片会减少某个波段的光的传入，因此影响到其亮度，比如：红色滤片会让蓝天变暗。 TP_BWMIX_FILTER_YELLOW;黄 TP_BWMIX_GAMMA;伽马矫正 TP_BWMIX_GAM_TOOLTIP;矫正红绿蓝三色通道(RGB)伽马 TP_BWMIX_LABEL;黑白 TP_BWMIX_MET;方法 TP_BWMIX_MET_CHANMIX;通道混合器 TP_BWMIX_MET_DESAT;去饱和 TP_BWMIX_MET_LUMEQUAL;亮度均衡器 TP_BWMIX_MIXC;通道混合器 TP_BWMIX_NEUTRAL;重置 TP_BWMIX_RGBLABEL;R: %1%% G: %2%% B: %3%% 总计: %4%% TP_BWMIX_SETTING;预设 TP_BWMIX_SETTING_TOOLTIP;不同预设（胶片、风光等）或手动的通道混合工具设置 TP_BWMIX_SET_HIGHCONTAST;高对比度 TP_BWMIX_SET_HIGHSENSIT;高感光度 TP_BWMIX_SET_HYPERPANCHRO;高汛色 TP_BWMIX_SET_INFRARED;红外 TP_BWMIX_SET_LANDSCAPE;风光 TP_BWMIX_SET_LOWSENSIT;低感光度 TP_BWMIX_SET_LUMINANCE;亮度 TP_BWMIX_SET_NORMCONTAST;正常对比度 TP_BWMIX_SET_ORTHOCHRO;正色 TP_BWMIX_SET_PANCHRO;全色 TP_BWMIX_SET_PORTRAIT;人像 TP_BWMIX_SET_RGBABS;绝对RGB TP_BWMIX_SET_RGBREL;相对RGB TP_BWMIX_SET_ROYGCBPMABS;绝对ROYGCBPM TP_BWMIX_SET_ROYGCBPMREL;相对ROYGCBPM TP_BWMIX_TCMODE_FILMLIKE;黑白仿胶片式 TP_BWMIX_TCMODE_SATANDVALBLENDING;黑白饱和度-亮度混合 TP_BWMIX_TCMODE_STANDARD;黑白标准 TP_BWMIX_TCMODE_WEIGHTEDSTD;黑白加权标准 TP_BWMIX_VAL;L TP_CACORRECTION_BLUE;蓝 TP_CACORRECTION_LABEL;色差矫正 TP_CACORRECTION_RED;红 TP_CBDL_AFT;在黑白工具之后 TP_CBDL_BEF;在黑白工具之前 TP_CBDL_METHOD;处理时机 TP_CBDL_METHOD_TOOLTIP;选择让分频反差调整工具先于黑白工具生效（使分频反差的工作色彩空间为L*a*b*），或后于黑白工具生效（此时的工作色彩空间为RGB） TP_CHMIXER_BLUE;蓝 TP_CHMIXER_GREEN;绿 TP_CHMIXER_LABEL;通道混合 TP_CHMIXER_RED;红 TP_COARSETRAF_TOOLTIP_HFLIP;水平翻转 TP_COARSETRAF_TOOLTIP_ROTLEFT;左转\n\n快捷键：\n[ - 多编辑器模式，\nAlt-[ - 单编辑器模式 TP_COARSETRAF_TOOLTIP_ROTRIGHT;右转\n\n快捷键：\n] - 多编辑器模式，\nAlt-] - 单编辑器模式 TP_COARSETRAF_TOOLTIP_VFLIP;竖直翻转 TP_COLORAPP_ABSOLUTELUMINANCE;绝对亮度 TP_COLORAPP_ALGO;算法 TP_COLORAPP_ALGO_ALL;全部 TP_COLORAPP_ALGO_JC;明度 + 彩度 (JC) TP_COLORAPP_ALGO_JS;明度 + 饱和度 (JS) TP_COLORAPP_ALGO_QM;视明度 + 视彩度 (QM) TP_COLORAPP_ALGO_TOOLTIP;你可以选择子项参数或全部参数 TP_COLORAPP_BADPIXSL;热像素/坏点过滤器 TP_COLORAPP_BADPIXSL_TOOLTIP;对热像素/坏点（非常亮的色彩）的抑制\n0 = 没有效果\n1 = 中值\n2 = 高斯\n也可以调整图像以避免有极暗的阴影。\n\n这些杂点是CIECAM02的局限性而导致的 TP_COLORAPP_BRIGHT;视明度 (Q) TP_COLORAPP_BRIGHT_TOOLTIP;CIECAM的视明度考虑了白色的明度，且与Lab和RGB的亮度不同 TP_COLORAPP_CAT02ADAPTATION_TOOLTIP;当手动设置时，推荐设置大于65的值 TP_COLORAPP_CHROMA;彩度 (C) TP_COLORAPP_CHROMA_M;视彩度 (M) TP_COLORAPP_CHROMA_M_TOOLTIP;CIECAM的视彩度与Lab和RGB的视彩度（Colorfulness）不同 TP_COLORAPP_CHROMA_S;饱和度 (S) TP_COLORAPP_CHROMA_S_TOOLTIP;CIECAM的饱和度与Lab和RGB的饱和度不同 TP_COLORAPP_CHROMA_TOOLTIP;CIECAM的彩度与Lab和RGB的彩度（Chroma）不同 TP_COLORAPP_CIECAT_DEGREE;CAT02 色适应 TP_COLORAPP_CONTRAST;对比度 (J) TP_COLORAPP_CONTRAST_Q;对比度 (Q) TP_COLORAPP_CONTRAST_Q_TOOLTIP;与Lab和RGB的对比度不同 TP_COLORAPP_CONTRAST_TOOLTIP;与Lab和RGB的对比度不同 TP_COLORAPP_CURVEEDITOR1;色调曲线1 TP_COLORAPP_CURVEEDITOR1_TOOLTIP;显示在CIECAM02应用前的L*（L*a*b*）通道直方图。\n若勾选“在曲线中显示CIECAM02输出直方图”，则显示CIECAM02应用后的J或Q直方图。\n\n主直方图面板不会显示J和Q的直方图\n\n最终的输出结果请参考主直方图面板 TP_COLORAPP_CURVEEDITOR2;色调曲线2 TP_COLORAPP_CURVEEDITOR2_TOOLTIP;与第二条曝光色调曲线的使用方法相同 TP_COLORAPP_CURVEEDITOR3;色彩曲线 TP_COLORAPP_CURVEEDITOR3_TOOLTIP;调整彩度，饱和度或视彩度。\n\n显示在CIECAM02应用前的色度（L*a*b*）通道直方图。\n若勾选“在曲线中显示CIECAM02输出直方图”，则显示CIECAM02应用后的C，s或M直方图。\n\n主直方图面板不会显示C，s和M的直方图\n最终的输出结果请参考主直方图面板 TP_COLORAPP_DATACIE;在曲线中显示CIECAM02输出直方图 TP_COLORAPP_DATACIE_TOOLTIP;启用后，CIECAM02直方图中会显示CIECAM02应用后的J或Q，以及C，s或M的大概值/范围。\n勾选此选项不会影响主直方图\n\n关闭选项后，CIECAM02直方图中会显示CIECAM02应用前的L*a*b*值 TP_COLORAPP_FREE;自由色温+绿色+CAT02+[输出] TP_COLORAPP_GAMUT;色域控制(L*a*b*) TP_COLORAPP_GAMUT_TOOLTIP;允许在L*a*b*模式下进行色域控制 TP_COLORAPP_HUE;色相(h) TP_COLORAPP_HUE_TOOLTIP;色相(h)-0°至360°之间的一个角度 TP_COLORAPP_LABEL;CIE色貌模型02 TP_COLORAPP_LABEL_CAM02;图像调整 TP_COLORAPP_LABEL_SCENE;场景条件 TP_COLORAPP_LABEL_VIEWING;观察条件 TP_COLORAPP_LIGHT;明度 (J) TP_COLORAPP_LIGHT_TOOLTIP; CIECAM02，Lab与RGB中的“明度”意义是不同的 TP_COLORAPP_MEANLUMINANCE;平均亮度(Yb%) TP_COLORAPP_MODEL;白点模型 TP_COLORAPP_MODEL_TOOLTIP;白平衡[RT]+[输出]：RT的白平衡被应用到场景，CIECAM02被设为D50，输出设备的白平衡被设置为观察条件\n\n白平衡[RT+CAT02]+[输出]：CAT02使用RT的白平衡设置，输出设备的白平衡被设置为观察条件\n\n自由色温+绿色+CAT02+[输出]：用户指定色温和绿色，输出设备的白平衡被设置为观察条件 TP_COLORAPP_NEUTRAL;重置 TP_COLORAPP_NEUTRAL_TIP;将所有复选框、滑条和曲线还原到默认状态 TP_COLORAPP_RSTPRO;红色与肤色保护 TP_COLORAPP_RSTPRO_TOOLTIP;滑条和曲线均受红色与肤色保护影响 TP_COLORAPP_SURROUND;周围环境 TP_COLORAPP_SURROUND_AVER;一般 TP_COLORAPP_SURROUND_DARK;黑暗 TP_COLORAPP_SURROUND_DIM;昏暗 TP_COLORAPP_SURROUND_EXDARK;极暗 TP_COLORAPP_SURROUND_TOOLTIP;改变色调和色彩以考虑到输出设备的观察条件。\n\n一般：一般的光照环境（标准）。图像不会变化。\n\n昏暗：昏暗环境（如电视）。图像会略微变暗。\n\n黑暗：黑暗环境（如投影仪）。图像会变得更暗。\n\n极暗：非常暗的环境（Cutsheet）。图像会变得很暗 TP_COLORAPP_TCMODE_BRIGHTNESS;视明度 TP_COLORAPP_TCMODE_CHROMA;彩度 TP_COLORAPP_TCMODE_COLORF;视彩度 TP_COLORAPP_TCMODE_LABEL1;曲线模式1 TP_COLORAPP_TCMODE_LABEL2;曲线模式2 TP_COLORAPP_TCMODE_LABEL3;曲线彩度模式 TP_COLORAPP_TCMODE_LIGHTNESS;明度 TP_COLORAPP_TCMODE_SATUR;饱和度 TP_COLORAPP_TONECIE;使用CIECAM02进行色调映射 TP_COLORAPP_TONECIE_TOOLTIP;禁用此选项，色调映射会在L*a*b*色彩空间中进行。\n启用此选项，色调映射会使用CIECAM进行。\n你需要启用色调映射工具来令此选项生效 TP_COLORAPP_VIEWING_ABSOLUTELUMINANCE_TOOLTIP;观察环境的绝对亮度（一般为16 cd/m²） TP_COLORAPP_WBCAM;白平衡[RT+CAT02]+[输出] TP_COLORAPP_WBRT;白平衡[RT]+[输出] TP_COLORTONING_AUTOSAT;自动 TP_COLORTONING_BALANCE;平衡 TP_COLORTONING_CHROMAC;不透明度 TP_COLORTONING_COLOR;色彩 TP_COLORTONING_CURVEEDITOR_CL_TOOLTIP;根据亮度调整色彩的不透明度，oC=f(L) TP_COLORTONING_HIGHLIGHT;高光 TP_COLORTONING_HUE;色相 TP_COLORTONING_LAB;L*a*b*混合 TP_COLORTONING_LABEL;色调分离 TP_COLORTONING_LABGRID;L*a*b*色彩矫正矩阵 TP_COLORTONING_LABREGIONS;色彩矫正区域 TP_COLORTONING_LABREGION_CHANNEL;通道 TP_COLORTONING_LABREGION_CHANNEL_ALL;全部 TP_COLORTONING_LABREGION_CHANNEL_B;蓝 TP_COLORTONING_LABREGION_CHANNEL_G;绿 TP_COLORTONING_LABREGION_CHANNEL_R;红 TP_COLORTONING_LABREGION_LIGHTNESS;光强度 TP_COLORTONING_LABREGION_LIST_TITLE;矫正 TP_COLORTONING_LABREGION_MASK;蒙版 TP_COLORTONING_LABREGION_MASKBLUR;蒙版模糊 TP_COLORTONING_LABREGION_OFFSET;偏移量 TP_COLORTONING_LABREGION_POWER;能量 TP_COLORTONING_LABREGION_SATURATION;饱和度 TP_COLORTONING_LABREGION_SHOWMASK;显示蒙版 TP_COLORTONING_LABREGION_SLOPE;斜率 TP_COLORTONING_LUMA;亮度 TP_COLORTONING_LUMAMODE;保持亮度 TP_COLORTONING_LUMAMODE_TOOLTIP;启用后，当你改变（红，绿，蓝等）颜色时，每个像素的亮度不变 TP_COLORTONING_METHOD;方法 TP_COLORTONING_METHOD_TOOLTIP;L*a*b*混合，RGB滑条和RGB曲线使用插值色彩混合。\n阴影/中间调/高光色彩平衡和饱和度2种颜色使用直接颜色。\n\n使用任意一种色调分离方法时都可以启用黑白工具，来为黑白照片进行色调分离 TP_COLORTONING_MIDTONES;中间调 TP_COLORTONING_NEUTRAL;重置滑条 TP_COLORTONING_NEUTRAL_TIP;重置所有数值（阴影，中间调，高光）为默认 TP_COLORTONING_OPACITY;不透明度 TP_COLORTONING_RGBCURVES;RGB-曲线 TP_COLORTONING_RGBSLIDERS;RGB-滑条 TP_COLORTONING_SA;饱和度保护 TP_COLORTONING_SATURATEDOPACITY;力度 TP_COLORTONING_SATURATIONTHRESHOLD;阈值 TP_COLORTONING_SHADOWS;阴影 TP_COLORTONING_SPLITCO;阴影/中间调/高光 TP_COLORTONING_SPLITCOCO;阴影/中间调/高光色彩平衡 TP_COLORTONING_SPLITLR;饱和度2种颜色 TP_COLORTONING_STR;力度 TP_COLORTONING_STRENGTH;力度 TP_COLORTONING_TWO2;特殊色度‘2种颜色’ TP_COLORTONING_TWOALL;特殊色度 TP_COLORTONING_TWOBY;特殊a*和b* TP_COLORTONING_TWOCOLOR_TOOLTIP;标准色度：\n线性响应，a* = b*\n\n特殊色度：\n线性响应，a* = b*，但是没有限制——可以尝试将曲线拖到对角线以下的效果\n\n特殊a*和b*：\n无限制的线性响应，a*和b*各有一条曲线。为实现特殊效果而设计\n\n特殊色度‘2种颜色’：\n效果更加可预测 TP_COLORTONING_TWOSTD;标准色度 TP_CROP_FIXRATIO;比例: TP_CROP_GTDIAGONALS;对角线法则 TP_CROP_GTEPASSPORT;生物辨识护照 TP_CROP_GTFRAME;方框 TP_CROP_GTGRID;网格 TP_CROP_GTHARMMEANS;调和平均律 TP_CROP_GTNONE;无 TP_CROP_GTRULETHIRDS;三等份法则 TP_CROP_GTTRIANGLE1;黄金三角 1 TP_CROP_GTTRIANGLE2;黄金三角 2 TP_CROP_GUIDETYPE;辅助方式: TP_CROP_H;高 TP_CROP_LABEL;裁剪 TP_CROP_RESETCROP;重置 TP_CROP_SELECTCROP;选择区域 TP_CROP_W;宽 TP_CROP_X;x TP_CROP_Y;y TP_DARKFRAME_AUTOSELECT;自动选择 TP_DARKFRAME_LABEL;暗场 TP_DEFRINGE_LABEL;去除色边 TP_DEFRINGE_RADIUS;半径 TP_DEFRINGE_THRESHOLD;阈值 TP_DEHAZE_DEPTH;纵深 TP_DEHAZE_LABEL;去雾 TP_DEHAZE_LUMINANCE;仅亮度 TP_DEHAZE_SHOW_DEPTH_MAP;显示纵深蒙版 TP_DEHAZE_STRENGTH;力度 TP_DIRPYRDENOISE_CHROMINANCE_AMZ;多分区自动 TP_DIRPYRDENOISE_CHROMINANCE_AUTOGLOBAL;全局自动 TP_DIRPYRDENOISE_CHROMINANCE_BLUEYELLOW;色度—蓝-黄 TP_DIRPYRDENOISE_CHROMINANCE_CURVE;色度曲线 TP_DIRPYRDENOISE_CHROMINANCE_CURVE_TOOLTIP;增加（倍增）所有色度滑条的数值\n此曲线允许你根据色度调整色度降噪的力度，比如你可以选择提高低色度区域的降噪力度，并降低高色度区域的力度 TP_DIRPYRDENOISE_CHROMINANCE_FRAME;色度噪点 TP_DIRPYRDENOISE_CHROMINANCE_MANUAL;手动 TP_DIRPYRDENOISE_CHROMINANCE_MASTER;色度—主控 TP_DIRPYRDENOISE_CHROMINANCE_METHOD;方法 TP_DIRPYRDENOISE_CHROMINANCE_METHODADVANCED_TOOLTIP;手动\n作用于整张图片\n用户手动控制降噪设置\n\n全局自动\n作用于整张图片\n使用9片区域来计算全局的色度噪点去除设定\n\n预览处\n作用于整张图片\n使用当前预览可见的区域来计算全局的色度噪点去除设定 TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW;预览处 TP_DIRPYRDENOISE_CHROMINANCE_PREVIEWRESIDUAL_INFO_TOOLTIP;显示在小波层级之后的，当前预览中的噪点水平。\n\n>300 噪点极多\n100-300 噪点多\n50-100 噪点略多\n<50 噪点极少\n\n一定要注意：该数值在RGB模式与在L*a*b*模式下会有不同。RGB模式下的数值相对更不精准，因为RGB模式无法完全分离亮度和色度 TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_INFO;预览大小=%1, 中心：Px=%2 Py=%3 TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_NOISEINFO;当前预览处噪点：中位数=%1 最大=%2 TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_NOISEINFO_EMPTY;当前预览处噪点：中位数= - 最大= - TP_DIRPYRDENOISE_CHROMINANCE_PREVIEW_TILEINFO;切片大小=%1, 中心: Tx=%2 Ty=%3 TP_DIRPYRDENOISE_CHROMINANCE_REDGREEN;色度—红-绿 TP_DIRPYRDENOISE_LABEL;降噪 TP_DIRPYRDENOISE_LUMINANCE_CONTROL;亮度控制 TP_DIRPYRDENOISE_LUMINANCE_CURVE;亮度曲线 TP_DIRPYRDENOISE_LUMINANCE_DETAIL;细节恢复 TP_DIRPYRDENOISE_LUMINANCE_FRAME;亮度噪点 TP_DIRPYRDENOISE_LUMINANCE_SMOOTHING;亮度 TP_DIRPYRDENOISE_MAIN_COLORSPACE;色彩空间 TP_DIRPYRDENOISE_MAIN_COLORSPACE_LAB;L*a*b* TP_DIRPYRDENOISE_MAIN_COLORSPACE_RGB;RGB TP_DIRPYRDENOISE_MAIN_COLORSPACE_TOOLTIP;对于Raw文件，RGB和L*a*b*均可用\n\n非Raw文件只可用L*a*b*空间，不论用户选择了哪个 TP_DIRPYRDENOISE_MAIN_GAMMA;伽马 TP_DIRPYRDENOISE_MAIN_GAMMA_TOOLTIP;伽马会令降噪的力度在不同色调之间发生变化。偏小的值会偏向阴影部分，偏大的值会偏向较亮的色调 TP_DIRPYRDENOISE_MAIN_MODE;模式 TP_DIRPYRDENOISE_MAIN_MODE_AGGRESSIVE;激进 TP_DIRPYRDENOISE_MAIN_MODE_CONSERVATIVE;保守 TP_DIRPYRDENOISE_MAIN_MODE_TOOLTIP;“保守”会保留低频的色度纹路，而“激进”会消除它们 TP_DIRPYRDENOISE_MEDIAN_METHOD;中值法 TP_DIRPYRDENOISE_MEDIAN_METHOD_CHROMINANCE;仅色度 TP_DIRPYRDENOISE_MEDIAN_METHOD_LAB;L*a*b* TP_DIRPYRDENOISE_MEDIAN_METHOD_LABEL;中值滤波器 TP_DIRPYRDENOISE_MEDIAN_METHOD_LUMINANCE;仅亮度 TP_DIRPYRDENOISE_MEDIAN_METHOD_RGB;RGB TP_DIRPYRDENOISE_MEDIAN_METHOD_TOOLTIP;当使用“仅亮度”和“L*a*b*”法时，在降噪流水线中，\n中值滤波会在小波被应用后进行。\n当使用“RGB”模式时，它会在降噪流水线的最后被进行 TP_DIRPYRDENOISE_MEDIAN_METHOD_WEIGHTED;权重L* (小) + a*b* (正常) TP_DIRPYRDENOISE_MEDIAN_PASSES;中值迭代 TP_DIRPYRDENOISE_MEDIAN_PASSES_TOOLTIP;使用3x3窗口进行三次中值迭代通常比使用7x7窗口进行一次迭代的效果更好 TP_DIRPYRDENOISE_MEDIAN_TYPE;中值类型 TP_DIRPYRDENOISE_MEDIAN_TYPE_TOOLTIP;使用你想要的窗口大小的中值滤波器。窗口大小越大，处理用时越长。\n3×3柔和：处理3x3窗口中的5个像素。\n3x3：处理3x3窗口里面的9个像素。\n5x5柔和：处理5x5窗口中的13个像素。\n5x5：处理5x5窗口中的25个像素。\n7x7：处理7x7窗口中的49个像素。\n9x9：处理9x9窗口中的81个像素。\n\n有时使用小窗口进行多次迭代的效果会优于使用大窗口进行一次迭代的效果 TP_DIRPYRDENOISE_TYPE_3X3;3×3 TP_DIRPYRDENOISE_TYPE_3X3SOFT;3×3柔和 TP_DIRPYRDENOISE_TYPE_5X5;5×5 TP_DIRPYRDENOISE_TYPE_5X5SOFT;5×5柔和 TP_DIRPYRDENOISE_TYPE_7X7;7×7 TP_DIRPYRDENOISE_TYPE_9X9;9×9 TP_DIRPYREQUALIZER_ALGO;皮肤色彩范围 TP_DIRPYREQUALIZER_ARTIF;减轻杂点 TP_DIRPYREQUALIZER_HUESKIN;肤色和其他色彩 TP_DIRPYREQUALIZER_LABEL;分频反差调整 TP_DIRPYREQUALIZER_LUMACOARSEST;最粗糙 TP_DIRPYREQUALIZER_LUMACONTRAST_MINUS;反差 - TP_DIRPYREQUALIZER_LUMACONTRAST_PLUS;反差 + TP_DIRPYREQUALIZER_LUMAFINEST;最精细 TP_DIRPYREQUALIZER_LUMANEUTRAL;还原 TP_DIRPYREQUALIZER_SKIN;肤色针对/保护 TP_DIRPYREQUALIZER_SKIN_TOOLTIP;-100：肤色被针对\n0：所有色彩被同等对待\n+100：肤色受到保护，其他颜色将受到影响 TP_DIRPYREQUALIZER_THRESHOLD;阈值 TP_DISTORTION_AMOUNT;数量 TP_DISTORTION_LABEL;畸变 TP_EPD_EDGESTOPPING;边缘敏感度 TP_EPD_GAMMA;伽马 TP_EPD_LABEL;色调映射 TP_EPD_REWEIGHTINGITERATES;再加权迭代 TP_EPD_SCALE;规模度 TP_EPD_STRENGTH;力度 TP_EXPOSURE_AUTOLEVELS;自动色阶 TP_EXPOSURE_AUTOLEVELS_TIP;使用自动色阶来让程序分析图像，调整曝光滑条的数值\n如果有需要的话，启用高光还原 TP_EXPOSURE_BLACKLEVEL;黑点 TP_EXPOSURE_BRIGHTNESS;亮度 TP_EXPOSURE_CLAMPOOG;令超出色域的色彩溢出 TP_EXPOSURE_CLIP;可溢出％ TP_EXPOSURE_CLIP_TIP;自动色阶功能可以让占总数的多少比例的像素溢出 TP_EXPOSURE_COMPRHIGHLIGHTS;高光压缩 TP_EXPOSURE_COMPRHIGHLIGHTSTHRESHOLD;高光压缩阈值 TP_EXPOSURE_COMPRSHADOWS;阴影压缩 TP_EXPOSURE_CONTRAST;对比度 TP_EXPOSURE_CURVEEDITOR;色调曲线 TP_EXPOSURE_CURVEEDITOR1;色调曲线 1 TP_EXPOSURE_CURVEEDITOR2;色调曲线 2 TP_EXPOSURE_CURVEEDITOR2_TOOLTIP;请在RawPedia的Exposure > Tone Curve文章中了解如何使用双色调曲线 TP_EXPOSURE_EXPCOMP;曝光补偿 TP_EXPOSURE_HISTMATCHING;自适应色调曲线 TP_EXPOSURE_HISTMATCHING_TOOLTIP;自动调整滑条和曲线（不包括曝光补偿）以使图片贴近于内嵌于Raw的JPEG预览图 TP_EXPOSURE_LABEL;曝光 TP_EXPOSURE_SATURATION;饱和度 TP_EXPOSURE_TCMODE_FILMLIKE;仿胶片式 TP_EXPOSURE_TCMODE_LABEL1;曲线模式1 TP_EXPOSURE_TCMODE_LABEL2;曲线模式2 TP_EXPOSURE_TCMODE_LUMINANCE;亮度 TP_EXPOSURE_TCMODE_PERCEPTUAL;感知性 TP_EXPOSURE_TCMODE_SATANDVALBLENDING;饱和度-亮度混合 TP_EXPOSURE_TCMODE_STANDARD;标准 TP_EXPOSURE_TCMODE_WEIGHTEDSTD;加权标准 TP_EXPOS_BLACKPOINT_LABEL;Raw黑点 TP_EXPOS_WHITEPOINT_LABEL;Raw白点 TP_FILMNEGATIVE_BLUE;蓝色比例 TP_FILMNEGATIVE_GREEN;参照指数（反差） TP_FILMNEGATIVE_GUESS_TOOLTIP;通过选取原图中的两个中性色（没有色彩）色块来自动确定红与蓝色的比例。两个色块的亮度应该有差别。在此之后再设置白平衡 TP_FILMNEGATIVE_LABEL;胶片负片 TP_FILMNEGATIVE_PICK;选择（两个）中灰点 TP_FILMNEGATIVE_RED;红色比例 TP_FILMSIMULATION_LABEL;胶片模拟 TP_FILMSIMULATION_SLOWPARSEDIR;RawTherapee被设置寻找用于胶片模拟工具的Hald CLUT图像，图像所在的文件夹加载时间过长。\n前往参数设置-图片处理-Hald CLUT路径\n以寻找被使用的文件夹是哪个。你应该令该文件夹指向一个只有Hald CLUT图像而没有其他图片的文件夹，而如果你不想用胶片模拟功能，就将它指向一个空文件夹。\n\n阅读RawPedia的Film Simulation词条以获取更多信息。\n\n你现在想取消扫描吗？ TP_FILMSIMULATION_STRENGTH;力度 TP_FILMSIMULATION_ZEROCLUTSFOUND;在参数设置中设定HaldCLUT目录 TP_FLATFIELD_AUTOSELECT;自动选择 TP_FLATFIELD_BLURRADIUS;模糊半径 TP_FLATFIELD_BLURTYPE;模糊种类 TP_FLATFIELD_BT_AREA;区域 TP_FLATFIELD_BT_HORIZONTAL;水平 TP_FLATFIELD_BT_VERTHORIZ;垂直+水平 TP_FLATFIELD_BT_VERTICAL;垂直 TP_FLATFIELD_CLIPCONTROL;溢出控制 TP_FLATFIELD_CLIPCONTROL_TOOLTIP;溢出控制能够避免由于平场的应用而导致的高光溢出。如果在应用平场之前就有溢出的高光，数值就会为0 TP_FLATFIELD_LABEL;平场 TP_GENERAL_11SCALE_TOOLTIP;此工具的效果仅在以1:1大小预览时才可见/准确 TP_GRADIENT_CENTER;中心 TP_GRADIENT_CENTER_X;中心 X TP_GRADIENT_CENTER_X_TOOLTIP;将渐变滤镜向左（负值）或向右（正值）移动 TP_GRADIENT_CENTER_Y;中心 Y TP_GRADIENT_CENTER_Y_TOOLTIP;将渐变滤镜向上（负值）或向下（正值）移动 TP_GRADIENT_DEGREE;角度 TP_GRADIENT_DEGREE_TOOLTIP;转动的角度数 TP_GRADIENT_FEATHER;羽化 TP_GRADIENT_FEATHER_TOOLTIP;以图像对角线的长度为100，设定渐变的宽度 TP_GRADIENT_LABEL;渐变滤镜 TP_GRADIENT_STRENGTH;力度 TP_GRADIENT_STRENGTH_TOOLTIP;滤镜的强度（档数） TP_HLREC_BLEND;混合 TP_HLREC_CIELAB;CIELab混合 TP_HLREC_COLOR;色彩延伸 TP_HLREC_ENA_TOOLTIP;可能会被自动色阶功能启用 TP_HLREC_LABEL;高光还原 TP_HLREC_LUMINANCE;亮度还原 TP_HLREC_METHOD;方法: TP_HSVEQUALIZER_CHANNEL;通道 TP_HSVEQUALIZER_HUE;H TP_HSVEQUALIZER_LABEL;HSV均衡器 TP_HSVEQUALIZER_SAT;S TP_HSVEQUALIZER_VAL;V TP_ICM_INPUTCAMERA;相机缺省 TP_ICM_INPUTCAMERAICC;自适应相机档案 TP_ICM_INPUTCUSTOM;自定义 TP_ICM_INPUTCUSTOM_TOOLTIP;选择你自己的DCP/ICC色彩档案 TP_ICM_INPUTDLGLABEL;选择输入ICC配置... TP_ICM_INPUTEMBEDDED;如可能, 使用内置 TP_ICM_INPUTEMBEDDED_TOOLTIP;使用非raw文件内嵌的色彩档案 TP_ICM_INPUTNONE;无档案 TP_ICM_INPUTNONE_TOOLTIP;不使用任何色彩档案。\n仅在特殊情况下使用此选项 TP_ICM_INPUTPROFILE;输入配置 TP_ICM_LABEL;ICM TP_ICM_NOICM;无ICM：sRGB配置 TP_ICM_OUTPUTPROFILE;输出配置 TP_ICM_PROFILEINTENT;渲染意图 TP_ICM_SAVEREFERENCE_APPLYWB;应用白平衡 TP_ICM_TONECURVE;使用DCP色调曲线 TP_ICM_WORKINGPROFILE;当前配置 TP_ICM_WORKING_TRC_CUSTOM;自定义 TP_IMPULSEDENOISE_LABEL;脉冲噪声降低 TP_IMPULSEDENOISE_THRESH;阈值 TP_LABCURVE_AVOIDCOLORSHIFT;避免色彩偏移 TP_LABCURVE_AVOIDCOLORSHIFT_TOOLTIP;使色彩适应当前色彩空间范围，并使用Munsell色矫正 TP_LABCURVE_BRIGHTNESS;明度 TP_LABCURVE_CHROMATICITY;色度 TP_LABCURVE_CHROMA_TOOLTIP;若要应用黑白色调，将色度值降低为-100 TP_LABCURVE_CONTRAST;对比度 TP_LABCURVE_CURVEEDITOR;亮度曲线 TP_LABCURVE_CURVEEDITOR_CC_TOOLTIP;根据色度(C)调整色度(C)，C=f(C) TP_LABCURVE_CURVEEDITOR_CH;CH TP_LABCURVE_CURVEEDITOR_CH_TOOLTIP;根据色相(H)调整色度(C)，C=f(H) TP_LABCURVE_CURVEEDITOR_CL;CL TP_LABCURVE_CURVEEDITOR_CL_TOOLTIP;根据亮度(L)调整色度(C)，C=f(L) TP_LABCURVE_CURVEEDITOR_HH;HH TP_LABCURVE_CURVEEDITOR_HH_TOOLTIP;根据色相(H)调整色相(H)，H=f(H) TP_LABCURVE_CURVEEDITOR_LC;LC TP_LABCURVE_CURVEEDITOR_LC_TOOLTIP;根据色度(C)调整亮度(L)，L=f(C) TP_LABCURVE_CURVEEDITOR_LH;LH TP_LABCURVE_CURVEEDITOR_LH_TOOLTIP;根据色相(H)调整亮度(L)，L=f(H) TP_LABCURVE_CURVEEDITOR_LL_TOOLTIP;根据亮度(L)调整亮度(L)，L=f(L) TP_LABCURVE_LABEL;Lab调整 TP_LABCURVE_LCREDSK;将LC曲线的效果限定于红色和肤色 TP_LABCURVE_LCREDSK_TIP;勾选该选项框，LC曲线就只会影响红色和肤色。\n取消勾选，它的效果就会应用到所有色彩上 TP_LABCURVE_RSTPROTECTION;红色与肤色保护 TP_LABCURVE_RSTPRO_TOOLTIP;作用在色度滑条和CC曲线的调整上 TP_LENSGEOM_AUTOCROP;自动剪切 TP_LENSGEOM_FILL;自动填充 TP_LENSGEOM_LABEL;镜头／几何 TP_LENSGEOM_LIN;线性 TP_LENSGEOM_LOG;对数 TP_LENSPROFILE_CORRECTION_AUTOMATCH;自动选择 TP_LENSPROFILE_CORRECTION_LCPFILE;LCP文件 TP_LENSPROFILE_CORRECTION_MANUAL;手动选择 TP_LENSPROFILE_LABEL;镜头矫正档案 TP_LENSPROFILE_LENS_WARNING;警告：制作镜头档案时相机所用的裁切系数比本图片拍摄时\n所使用的裁剪系数更大。矫正结果可能出现错误 TP_LENSPROFILE_MODE_HEADER;镜头档案 TP_LENSPROFILE_USE_CA;色差 TP_LENSPROFILE_USE_GEOMETRIC;几何畸变 TP_LENSPROFILE_USE_HEADER;矫正 TP_LENSPROFILE_USE_VIGNETTING;暗角 TP_LOCALCONTRAST_AMOUNT;数量 TP_LOCALCONTRAST_DARKNESS;暗部等级 TP_LOCALCONTRAST_LABEL;局部反差 TP_LOCALCONTRAST_LIGHTNESS;亮部等级 TP_LOCALCONTRAST_RADIUS;半径 TP_METADATA_EDIT;应用修改 TP_METADATA_MODE;元数据复制模式 TP_METADATA_STRIP;移除所有元数据 TP_METADATA_TUNNEL;原样复制 TP_NEUTRAL;重置 TP_NEUTRAL_TIP;还原各个曝光控制滑条的值\n自动色阶所能调整的滑条都会被此还原，不论你是否使用了自动色阶功能 TP_PCVIGNETTE_FEATHER;羽化 TP_PCVIGNETTE_FEATHER_TOOLTIP;羽化：\n0 = 仅边角\n50 = 到达一半的位置\n100 = 到达中心 TP_PCVIGNETTE_LABEL;暗角滤镜 TP_PCVIGNETTE_ROUNDNESS;圆度 TP_PCVIGNETTE_ROUNDNESS_TOOLTIP;圆度：\n0 = 矩形\n50 = 适于图像的椭圆\n100 = 圆形 TP_PCVIGNETTE_STRENGTH;力度 TP_PCVIGNETTE_STRENGTH_TOOLTIP;滤镜的曝光补偿力度（到达边角） TP_PDSHARPENING_LABEL;捕图加锐 TP_PERSPECTIVE_HORIZONTAL;水平 TP_PERSPECTIVE_LABEL;视角 TP_PERSPECTIVE_VERTICAL;垂直 TP_PFCURVE_CURVEEDITOR_CH;色相 TP_PFCURVE_CURVEEDITOR_CH_TOOLTIP;控制去除某个色彩的色边的力度。\n越向上 = 越强\n越向下 = 越弱 TP_PREPROCESS_DEADPIXFILT;坏点过滤器 TP_PREPROCESS_DEADPIXFILT_TOOLTIP;尝试过滤坏点 TP_PREPROCESS_GREENEQUIL;绿平衡 TP_PREPROCESS_HOTPIXFILT;热像素过滤器 TP_PREPROCESS_HOTPIXFILT_TOOLTIP;尝试过滤热像素 TP_PREPROCESS_LABEL;预处理 TP_PREPROCESS_LINEDENOISE;线状噪点过滤 TP_PREPROCESS_LINEDENOISE_DIRECTION;方向 TP_PREPROCESS_LINEDENOISE_DIRECTION_BOTH;双向 TP_PREPROCESS_LINEDENOISE_DIRECTION_HORIZONTAL;横向 TP_PREPROCESS_LINEDENOISE_DIRECTION_PDAF_LINES;横向，只在PDAF点所在的行上 TP_PREPROCESS_LINEDENOISE_DIRECTION_VERTICAL;纵向 TP_PREPROCESS_NO_FOUND;未检测出 TP_PREPROCESS_PDAFLINESFILTER;PDAF条纹过滤器 TP_PRSHARPENING_LABEL;调整大小后加锐 TP_PRSHARPENING_TOOLTIP;在调整图片大小后加锐图像。仅在选择"Lanczos"算法时可用。\n本工具的效果无法预览。见RawPedia的文章以了解本工具的使用教程 TP_RAWCACORR_AUTO;自动修正 TP_RAWCACORR_AUTOIT;迭代 TP_RAWCACORR_AUTOIT_TOOLTIP;若“自动矫正”被勾选，此设置便可用。\n自动矫正是保守的，也就是说它经常不会去除所有色差。\n要移除全部色差，你可以使用至多迭代五次的色差矫正迭代。\n每次迭代会纠正上个迭代未能修正的色差，代价是需要花费额外的处理时间 TP_RAWCACORR_AVOIDCOLORSHIFT;避免偏色 TP_RAWCACORR_CABLUE;蓝 TP_RAWCACORR_CARED;红 TP_RAWCACORR_LABEL;色差矫正 TP_RAWEXPOS_BLACK_0;绿 1 (lead) TP_RAWEXPOS_BLACK_1;红 TP_RAWEXPOS_BLACK_2;蓝 TP_RAWEXPOS_BLACK_3;绿 2 TP_RAWEXPOS_BLACK_BLUE;蓝 TP_RAWEXPOS_BLACK_GREEN;绿 TP_RAWEXPOS_BLACK_RED;红 TP_RAWEXPOS_LINEAR;白点矫正 TP_RAWEXPOS_RGB;红，绿，蓝 TP_RAW_AHD;AHD TP_RAW_AMAZE;AMaZE TP_RAW_AMAZEVNG4;AMaZE+VNG4 TP_RAW_BORDER;边界 TP_RAW_DCB;DCB TP_RAW_DCBENHANCE;DCB优化 TP_RAW_DCBITERATIONS;DCB迭代数 TP_RAW_DCBVNG4;DCB+VNG4 TP_RAW_DMETHOD;方法 TP_RAW_DMETHOD_PROGRESSBAR;%1 去马赛克中... TP_RAW_DMETHOD_PROGRESSBAR_REFINE;去马赛克精细化... TP_RAW_DMETHOD_TOOLTIP;注：IGV和LMMSE是专门用于配合降噪工具，在为高ISO图片降噪时不产生迷宫状噪点，色调分离或是褪色所用的。\n像素偏移是为宾得/索尼的像素偏移文件所用的。此算法将使用AMaZE算法来处理非像素偏移文件 TP_RAW_DUALDEMOSAICAUTOCONTRAST;自动阈值 TP_RAW_DUALDEMOSAICAUTOCONTRAST_TOOLTIP;如果勾选框被打勾（推荐如此做），RawTherapee会根据图片中的平缓区域自动计算一个最优值。\n如果图像中没有平缓的区域，或是图片噪点太多，该数值会被设为0\n若想手动调整此数值，首先要将勾选框取消勾选（合适的值取决于具体图像的情况） TP_RAW_DUALDEMOSAICCONTRAST;反差阈值 TP_RAW_EAHD;EAHD TP_RAW_FALSECOLOR;伪色抑制步长 TP_RAW_HD;阈值 TP_RAW_HD_TOOLTIP;更低的数值会使热像素/坏点的检测更加激进，但是“宁错杀，不放过”的激进程度可能会导致杂点的产生。在启用本功能后，如果你发现了新出现的杂点，就逐渐提高阈值，直至杂点消失 TP_RAW_HPHD;HPHD TP_RAW_IGV;IGV TP_RAW_IMAGENUM;子图像 TP_RAW_IMAGENUM_SN;SN模式 TP_RAW_IMAGENUM_TOOLTIP;某些Raw文件包含多张子图像（宾得/索尼的像素偏移，宾得的3张合并HDR，佳能的双像素，富士的EXR）。\n\n当使用除像素偏移外的任意一个去马赛克算法时，本栏用来选择哪帧子图像被处理。\n\n当在像素偏移的Raw文件上使用像素偏移去马赛克算法时，所有子图像都会被应用，此时本栏用来选择哪帧子图像被用来处理动体 TP_RAW_LABEL;去马赛克 TP_RAW_LMMSE;LMMSE TP_RAW_LMMSEITERATIONS;LMMSE优化步长 TP_RAW_LMMSE_TOOLTIP;增加伽马（步长1），中位数（步长2-4）和精细化（步长5-6）以减少杂点并提升信噪比 TP_RAW_MONO;黑白 TP_RAW_NONE;无（显示传感器阵列） TP_RAW_PIXELSHIFT;像素偏移 TP_RAW_PIXELSHIFTBLUR;动体蒙版模糊 TP_RAW_PIXELSHIFTDMETHOD;动体区域的去马赛克算法 TP_RAW_PIXELSHIFTEPERISO;敏感度 TP_RAW_PIXELSHIFTEPERISO_TOOLTIP;默认值0在原生ISO下应该具有不错的效果。\n更大的数值会增强动体检测的敏感度。\n以微小的步长调整此值，同时观察动体蒙版的变化。\n对于欠曝/高ISO的照片，应提高此值 TP_RAW_PIXELSHIFTEQUALBRIGHT;将不同照片的亮度均等化 TP_RAW_PIXELSHIFTEQUALBRIGHTCHANNEL;将各个通道分别均等化 TP_RAW_PIXELSHIFTEQUALBRIGHTCHANNEL_TOOLTIP;启用：对RGB通道分别进行均等化。\n禁用：使用同一个均等化系数对所有通道进行均等化 TP_RAW_PIXELSHIFTEQUALBRIGHT_TOOLTIP;以当前被选中的一帧图像为基准，均等化各帧图像的亮度。\n如果各帧中有过曝的区域，应选择最亮的一帧以避免过曝区域出现紫色，也可启用动体补正来解决该问题 TP_RAW_PIXELSHIFTGREEN;检查绿色通道以检测动体 TP_RAW_PIXELSHIFTHOLEFILL;填补动体蒙版的洞 TP_RAW_PIXELSHIFTHOLEFILL_TOOLTIP;填补动体蒙版中间所存在的洞 TP_RAW_PIXELSHIFTMEDIAN;对动体区域使用中值 TP_RAW_PIXELSHIFTMEDIAN_TOOLTIP;对于运动的部分，使用所有图片的中值，而不是用户选择的某一帧图片。\n移除在所有图片中位置都不同的物体。\n在移动慢（重叠）的物体上会产生动体效果 TP_RAW_PIXELSHIFTMM_AUTO;自动 TP_RAW_PIXELSHIFTMM_CUSTOM;自定义 TP_RAW_PIXELSHIFTMM_OFF;关闭 TP_RAW_PIXELSHIFTMOTIONMETHOD;动体补正 TP_RAW_PIXELSHIFTNONGREENCROSS;检查红/蓝色通道以检测动体 TP_RAW_PIXELSHIFTSHOWMOTION;显示动体蒙版 TP_RAW_PIXELSHIFTSHOWMOTIONMASKONLY;仅显示动体蒙版 TP_RAW_PIXELSHIFTSHOWMOTIONMASKONLY_TOOLTIP;显示没有照片的动体蒙版 TP_RAW_PIXELSHIFTSHOWMOTION_TOOLTIP;在图像上用绿色蒙版显示动体区域 TP_RAW_PIXELSHIFTSIGMA;模糊半径 TP_RAW_PIXELSHIFTSIGMA_TOOLTIP;默认半径值1.0一般对于原生ISO来说足够好。\n对于高ISO照片，提高此值，5.0是不错的起始点。\n在改变此值的同时关注动体蒙版 TP_RAW_PIXELSHIFTSMOOTH;顺滑过渡 TP_RAW_PIXELSHIFTSMOOTH_TOOLTIP;让存在动体的区域与没有动体之间的区域之间顺滑地过渡。\n将此值设置为0以禁用顺滑过渡\n将此值设置为1以使用AMaZE/LMMSE算法（这取决于你是否选择了“使用LMMSE”）所解出的你所选择的那一帧图像，如果你选择了“使用中值”，那么就会根据通过所有图像计算出的中值解出图像 TP_RAW_RCD;RCD TP_RAW_RCDVNG4;RCD+VNG4 TP_RAW_SENSOR_BAYER_LABEL;拜耳阵列传感器 TP_RAW_VNG4;VNG4 TP_RESIZE_ALLOW_UPSCALING;允许升采样 TP_RESIZE_APPLIESTO;应用到： TP_RESIZE_CROPPEDAREA;裁剪区域 TP_RESIZE_FITBOX;矩形区域 TP_RESIZE_FULLIMAGE;整张图 TP_RESIZE_H;高: TP_RESIZE_HEIGHT;高度 TP_RESIZE_LABEL;调整大小 TP_RESIZE_LANCZOS;Lanczos算法 TP_RESIZE_METHOD;方法: TP_RESIZE_NEAREST;最近点 TP_RESIZE_SCALE;缩放倍数 TP_RESIZE_SPECIFY;调整： TP_RESIZE_W;宽: TP_RESIZE_WIDTH;宽度 TP_RETINEX_CONTEDIT_HSL;HSL直方图 TP_RETINEX_CONTEDIT_LAB;L*a*b*直方图 TP_RETINEX_CONTEDIT_LH;色调 TP_RETINEX_CONTEDIT_MAP;均衡器 TP_RETINEX_EQUAL;均衡器 TP_RETINEX_VIEW_UNSHARP;USM锐化 TP_RGBCURVES_BLUE;B TP_RGBCURVES_CHANNEL;通道 TP_RGBCURVES_GREEN;G TP_RGBCURVES_LABEL;RGB曲线 TP_RGBCURVES_LUMAMODE;亮度模式 TP_RGBCURVES_LUMAMODE_TOOLTIP;亮度模式允许改变R、G、B三个通道的亮度分配而不影响色彩 TP_RGBCURVES_RED;R TP_ROTATE_DEGREE;角度 TP_ROTATE_LABEL;旋转 TP_ROTATE_SELECTLINE;选择基准线 TP_SAVEDIALOG_OK_TIP;快捷键：Ctrl-Enter TP_SHADOWSHLIGHTS_HIGHLIGHTS;高光 TP_SHADOWSHLIGHTS_HLTONALW;色调范围 TP_SHADOWSHLIGHTS_LABEL;阴影/高光 TP_SHADOWSHLIGHTS_RADIUS;半径 TP_SHADOWSHLIGHTS_SHADOWS;阴影 TP_SHADOWSHLIGHTS_SHTONALW;色调范围 TP_SHARPENEDGE_AMOUNT;数量 TP_SHARPENEDGE_LABEL;边缘 TP_SHARPENEDGE_PASSES;迭代 TP_SHARPENEDGE_THREE;仅亮度 TP_SHARPENING_AMOUNT;数量 TP_SHARPENING_BLUR;模糊半径 TP_SHARPENING_CONTRAST;反差阈值 TP_SHARPENING_EDRADIUS;半径 TP_SHARPENING_EDTOLERANCE;边缘容差 TP_SHARPENING_HALOCONTROL;光晕控制 TP_SHARPENING_HCAMOUNT;数量 TP_SHARPENING_ITERCHECK;自动限制迭代 TP_SHARPENING_LABEL;锐化 TP_SHARPENING_METHOD;方法 TP_SHARPENING_ONLYEDGES;仅锐化边缘 TP_SHARPENING_RADIUS;半径 TP_SHARPENING_RADIUS_BOOST;边缘半径值提升 TP_SHARPENING_RLD;理查森-露西反卷积法（RLD） TP_SHARPENING_RLD_AMOUNT;数量 TP_SHARPENING_RLD_DAMPING;衰减 TP_SHARPENING_RLD_ITERATIONS;迭代 TP_SHARPENING_THRESHOLD;阈值 TP_SHARPENING_USM;USM锐化 TP_SHARPENMICRO_AMOUNT;数量 TP_SHARPENMICRO_CONTRAST;反差阈值 TP_SHARPENMICRO_LABEL;微反差 TP_SHARPENMICRO_MATRIX;使用3×3阵列而非5×5阵列 TP_SHARPENMICRO_UNIFORMITY;均匀度 TP_SOFTLIGHT_LABEL;柔光 TP_SOFTLIGHT_STRENGTH;力度 TP_TM_FATTAL_AMOUNT;数量 TP_TM_FATTAL_ANCHOR;锚点 TP_TM_FATTAL_LABEL;动态范围压缩 TP_TM_FATTAL_THRESHOLD;细节 TP_VIBRANCE_AVOIDCOLORSHIFT;避免偏色 TP_VIBRANCE_CURVEEDITOR_SKINTONES_TOOLTIP;根据色相(H)调整色相(H)，H=f(H) TP_VIBRANCE_PROTECTSKINS;保护肤色 TP_VIGNETTING_AMOUNT;数量 TP_VIGNETTING_CENTER;中心 TP_VIGNETTING_CENTER_X;中心 X TP_VIGNETTING_CENTER_Y;中心 Y TP_VIGNETTING_LABEL;暗角矫正 TP_VIGNETTING_RADIUS;半径 TP_VIGNETTING_STRENGTH;力度 TP_WAVELET_1;第1级 TP_WAVELET_2;第2级 TP_WAVELET_3;第3级 TP_WAVELET_4;第4级 TP_WAVELET_5;第5级 TP_WAVELET_6;第6级 TP_WAVELET_7;第7级 TP_WAVELET_8;第8级 TP_WAVELET_9;第9级 TP_WAVELET_APPLYTO;应用到 TP_WAVELET_AVOID;避免偏色 TP_WAVELET_B0;黑色 TP_WAVELET_B1;灰色 TP_WAVELET_B2;残差图 TP_WAVELET_BACKGROUND;背景 TP_WAVELET_BACUR;曲线 TP_WAVELET_BALANCE;反差平衡斜/纵-横 TP_WAVELET_BALANCE_TOOLTIP;调整小波在各方向：纵向-横向与斜向上的平衡。\n如果启用了反差，色度，或是残差图色调映射，那么该平衡的效果会被放大 TP_WAVELET_BALCHRO;色度平衡 TP_WAVELET_BALCHRO_TOOLTIP;启用后，“反差平衡”曲线/滑条也会调整色度平衡 TP_WAVELET_BANONE;无 TP_WAVELET_BASLI;滑条 TP_WAVELET_BATYPE;反差平衡方法 TP_WAVELET_CCURVE;局部反差 TP_WAVELET_CH1;应用到整个色度范围 TP_WAVELET_CH2;根据饱和度高低 TP_WAVELET_CH3;与反差等级挂钩 TP_WAVELET_CHCU;曲线 TP_WAVELET_CHR;色度-反差挂钩力度 TP_WAVELET_CHRO;根据饱和度高低 TP_WAVELET_CHSL;滑条 TP_WAVELET_CHTYPE;色度应用方法 TP_WAVELET_COMPCONT;反差 TP_WAVELET_COMPTM;色调映射 TP_WAVELET_CONTR;色彩范围 TP_WAVELET_CONTRA;反差 TP_WAVELET_CONTRAST_MINUS;反差 - TP_WAVELET_CONTRAST_PLUS;反差 + TP_WAVELET_CONTRA_TOOLTIP;改变残差图的反差 TP_WAVELET_CTYPE;色度控制 TP_WAVELET_DALL;所有方向 TP_WAVELET_DAUB;边缘表现 TP_WAVELET_DAUB2;D2-低 TP_WAVELET_DAUB4;D4-标准 TP_WAVELET_DAUB6;D6-标准增强 TP_WAVELET_DAUB10;D10-中等 TP_WAVELET_DAUB14;D14-高 TP_WAVELET_DAUB_TOOLTIP;改变多贝西系数：\nD4 = 标准\nD14 = 一般而言表现最好，但会增加10%的处理耗时\n\n影响边缘检测以及较低层级的质量。但是质量不完全和该系数有关，可能会随具体的图像和处理方式而变化 TP_WAVELET_DONE;纵向 TP_WAVELET_DTHR;斜向 TP_WAVELET_DTWO;横向 TP_WAVELET_EDCU;曲线 TP_WAVELET_EDGCONT;局部反差 TP_WAVELET_EDGE;边缘锐度 TP_WAVELET_EDGTHRESH;细节 TP_WAVELET_EDGTHRESH_TOOLTIP;改变力度在第1级和其它层级之间的分配。阈值越高，在第1级上的活动越突出。谨慎使用负值，因为这会让更高层级上的活动更强烈，可能导致杂点的出现。 TP_WAVELET_EDRAD;半径 TP_WAVELET_EDSL;阈值滑条 TP_WAVELET_EDTYPE;局部反差调整方法 TP_WAVELET_EDVAL;力度 TP_WAVELET_FINEST;最精细 TP_WAVELET_HIGHLIGHT;高光亮度范围 TP_WAVELET_HS1;全部亮度范围 TP_WAVELET_HS2;阴影／高光 TP_WAVELET_HUESKIN;肤色和其它色彩 TP_WAVELET_HUESKY;天空色 TP_WAVELET_LABEL;小波层级 TP_WAVELET_LARGEST;最粗糙 TP_WAVELET_LEVCH;色度 TP_WAVELET_LEVDIR_ALL;所有方向的全部层级 TP_WAVELET_LEVDIR_INF;小于等于此层级 TP_WAVELET_LEVDIR_ONE;一个层级 TP_WAVELET_LEVDIR_SUP;高于此层级 TP_WAVELET_LEVELS;小波层级数 TP_WAVELET_LEVELS_TOOLTIP;选择将图像分解为几个层级的细节。更多的层级需要使用更多的内存和更长的处理时间 TP_WAVELET_LEVF;反差 TP_WAVELET_LEVLABEL;当前预览中可见的层级数 = %1 TP_WAVELET_LEVONE;第2级 TP_WAVELET_LEVTHRE;第4级 TP_WAVELET_LEVTWO;第3级 TP_WAVELET_LEVZERO;第1级 TP_WAVELET_LINKEDG;与边缘锐度的力度挂钩 TP_WAVELET_MEDGREINF;第一层级 TP_WAVELET_MEDI;减少蓝天中的杂点 TP_WAVELET_MEDILEV;边缘检测 TP_WAVELET_NEUTRAL;还原 TP_WAVELET_NOIS;去噪 TP_WAVELET_NOISE;去噪和精细化 TP_WAVELET_NPHIGH;高 TP_WAVELET_NPLOW;低 TP_WAVELET_NPNONE;无 TP_WAVELET_OPACITYW;反差平衡斜/纵-横曲线 TP_WAVELET_PROC;处理 TP_WAVELET_RE1;增强 TP_WAVELET_RE2;不变 TP_WAVELET_RE3;减弱 TP_WAVELET_RESCHRO;色度 TP_WAVELET_RESCON;阴影 TP_WAVELET_RESCONH;高光 TP_WAVELET_RESID;残差图像 TP_WAVELET_SETTINGS;小波设定 TP_WAVELET_SKIN;肤色针对/保护 TP_WAVELET_SKIN_TOOLTIP;值为-100时，肤色受针对\n值为0时，所有色彩被平等针对\n值为+100时，肤色受保护，所有其他颜色会被调整 TP_WAVELET_SKY;天空色针对/保护 TP_WAVELET_SKY_TOOLTIP;值为-100时，天空色受针对\n值为0时，所有色彩被平等针对\n值为+100时，天空色受保护，所有其他颜色会被调整 TP_WAVELET_STREN;力度 TP_WAVELET_STRENGTH;力度 TP_WAVELET_SUPE;额外级 TP_WAVELET_THR;阴影阈值 TP_WAVELET_THRH;高光阈值 TP_WAVELET_TILESBIG;大切片 TP_WAVELET_TILESFULL;整张图片 TP_WAVELET_TILESIZE;切片缓存方法 TP_WAVELET_TILESLIT;小切片 TP_WAVELET_TILES_TOOLTIP;处理整张图片可以让图像质量更好，所以推荐使用该选项，切片缓存是给小内存用户的备用方法。阅读RawPedia的文章以了解具体的内存需求 TP_WAVELET_TON;调色 TP_WBALANCE_AUTO;自动 TP_WBALANCE_CAMERA;相机 TP_WBALANCE_CLOUDY;阴天 TP_WBALANCE_CUSTOM;自定义 TP_WBALANCE_DAYLIGHT;晴天 TP_WBALANCE_EQBLUERED;蓝红均衡器 TP_WBALANCE_FLASH55;徕卡 TP_WBALANCE_FLASH60;标准，佳能，宾得，奥林巴斯 TP_WBALANCE_FLASH65;尼康，松下，索尼，美能达 TP_WBALANCE_FLASH_HEADER;闪光 TP_WBALANCE_FLUO_HEADER;荧光灯 TP_WBALANCE_GREEN;色调 TP_WBALANCE_LABEL;白平衡 TP_WBALANCE_LED_HEADER;LED TP_WBALANCE_METHOD;方法 TP_WBALANCE_PICKER;选点 TP_WBALANCE_SHADE;阴影 TP_WBALANCE_SIZE;大小: TP_WBALANCE_SOLUX35;Solux 3500K TP_WBALANCE_SOLUX41;Solux 4100K TP_WBALANCE_SPOTWB;白平衡采样 TP_WBALANCE_TEMPBIAS;自动白平衡色温偏向 TP_WBALANCE_TEMPBIAS_TOOLTIP;此功能允许你将色温向冷/暖偏移，\n以调整计算出的“自动白平衡”。这个偏移被表达为已计\n算出的色温的一个百分比，故最终的调整结果为“色温+色温*偏移” TP_WBALANCE_TEMPERATURE;色温 TP_WBALANCE_TUNGSTEN;白炽灯 TP_WBALANCE_WATER1;水下 1 TP_WBALANCE_WATER2;水下 2 TP_WBALANCE_WATER_HEADER;水下 ZOOMPANEL_100;(100%) ZOOMPANEL_NEWCROPWINDOW;开启（新的）细节窗口 ZOOMPANEL_ZOOM100;缩放到100%\n快捷键：z ZOOMPANEL_ZOOMFITCROPSCREEN;适应裁剪区域到屏幕\n快捷键：f ZOOMPANEL_ZOOMFITSCREEN;适应屏幕\n快捷键：Alt-f ZOOMPANEL_ZOOMIN;缩放拉近\n快捷键：+ ZOOMPANEL_ZOOMOUT;缩放拉远\n快捷键：- !!!!!!!!!!!!!!!!!!!!!!!!! ! Untranslated keys follow; remove the ! prefix after an entry is translated. !!!!!!!!!!!!!!!!!!!!!!!!! !FILEBROWSER_POPUPINSPECT;Inspect !GENERAL_DELETE_ALL;Delete all !GENERAL_EDIT;Edit !GENERAL_SAVE_AS;Save as... !HISTOGRAM_TOOLTIP_CROSSHAIR;Show/Hide indicator crosshair. !HISTOGRAM_TOOLTIP_SHOW_OPTIONS;Toggle visibility of the scope option buttons. !HISTOGRAM_TOOLTIP_TRACE_BRIGHTNESS;Adjust scope brightness. !HISTOGRAM_TOOLTIP_TYPE_HISTOGRAM;Histogram !HISTOGRAM_TOOLTIP_TYPE_HISTOGRAM_RAW;Raw Histogram !HISTOGRAM_TOOLTIP_TYPE_PARADE;RGB Parade !HISTOGRAM_TOOLTIP_TYPE_VECTORSCOPE_HC;Hue-Chroma Vectorscope !HISTOGRAM_TOOLTIP_TYPE_VECTORSCOPE_HS;Hue-Saturation Vectorscope !HISTOGRAM_TOOLTIP_TYPE_WAVEFORM;Waveform !HISTORY_MSG_112;--unused-- !HISTORY_MSG_133;Output gamma !HISTORY_MSG_134;Free gamma !HISTORY_MSG_135;Free gamma !HISTORY_MSG_136;Free gamma slope !HISTORY_MSG_137;Black level - Green 1 !HISTORY_MSG_138;Black level - Red !HISTORY_MSG_139;Black level - Blue !HISTORY_MSG_140;Black level - Green 2 !HISTORY_MSG_141;Black level - Link greens !HISTORY_MSG_150;Post-demosaic artifact/noise red. !HISTORY_MSG_151;Vibrance !HISTORY_MSG_152;Vib - Pastel tones !HISTORY_MSG_153;Vib - Saturated tones !HISTORY_MSG_154;Vib - Protect skin-tones !HISTORY_MSG_156;Vib - Link pastel/saturated !HISTORY_MSG_157;Vib - P/S threshold !HISTORY_MSG_236;--unused-- !HISTORY_MSG_250;NR - Enhanced !HISTORY_MSG_274;CT - Sat. Shadows !HISTORY_MSG_275;CT - Sat. Highlights !HISTORY_MSG_277;--unused-- !HISTORY_MSG_290;Black Level - Red !HISTORY_MSG_291;Black Level - Green !HISTORY_MSG_292;Black Level - Blue !HISTORY_MSG_300;- !HISTORY_MSG_313;W - Chroma - Sat/past !HISTORY_MSG_314;W - Gamut - Reduce artifacts !HISTORY_MSG_316;W - Gamut - Skin tar/prot !HISTORY_MSG_317;W - Gamut - Skin hue !HISTORY_MSG_322;W - Gamut - Avoid color shift !HISTORY_MSG_323;W - ES - Local contrast !HISTORY_MSG_324;W - Chroma - Pastel !HISTORY_MSG_325;W - Chroma - Saturated !HISTORY_MSG_326;W - Chroma - Method !HISTORY_MSG_327;W - Contrast - Apply to !HISTORY_MSG_328;W - Chroma - Link strength !HISTORY_MSG_329;W - Toning - Opacity RG !HISTORY_MSG_330;W - Toning - Opacity BY !HISTORY_MSG_331;W - Contrast levels - Extra !HISTORY_MSG_332;W - Tiling method !HISTORY_MSG_333;W - Residual - Shadows !HISTORY_MSG_334;W - Residual - Chroma !HISTORY_MSG_335;W - Residual - Highlights !HISTORY_MSG_336;W - Residual - Highlights threshold !HISTORY_MSG_337;W - Residual - Sky hue !HISTORY_MSG_342;W - ES - First level !HISTORY_MSG_343;W - Chroma levels !HISTORY_MSG_344;W - Meth chroma sl/cur !HISTORY_MSG_345;W - ES - Local contrast !HISTORY_MSG_346;W - ES - Local contrast method !HISTORY_MSG_350;W - ES - Edge detection !HISTORY_MSG_351;W - Residual - HH curve !HISTORY_MSG_352;W - Background !HISTORY_MSG_353;W - ES - Gradient sensitivity !HISTORY_MSG_354;W - ES - Enhanced !HISTORY_MSG_355;W - ES - Threshold low !HISTORY_MSG_356;W - ES - Threshold high !HISTORY_MSG_358;W - Gamut - CH !HISTORY_MSG_361;W - Final - Chroma balance !HISTORY_MSG_362;W - Residual - Compression method !HISTORY_MSG_363;W - Residual - Compression strength !HISTORY_MSG_364;W - Final - Contrast balance !HISTORY_MSG_365;W - Final - Delta balance !HISTORY_MSG_366;W - Residual - Compression gamma !HISTORY_MSG_367;W - Final - 'After' contrast curve !HISTORY_MSG_368;W - Final - Contrast balance !HISTORY_MSG_369;W - Final - Balance method !HISTORY_MSG_370;W - Final - Local contrast curve !HISTORY_MSG_385;W - Residual - Color balance !HISTORY_MSG_386;W - Residual - CB green high !HISTORY_MSG_387;W - Residual - CB blue high !HISTORY_MSG_388;W - Residual - CB green mid !HISTORY_MSG_389;W - Residual - CB blue mid !HISTORY_MSG_390;W - Residual - CB green low !HISTORY_MSG_391;W - Residual - CB blue low !HISTORY_MSG_392;W - Residual - Color balance !HISTORY_MSG_393;DCP - Look table !HISTORY_MSG_394;DCP - Baseline exposure !HISTORY_MSG_395;DCP - Base table !HISTORY_MSG_396;W - Contrast sub-tool !HISTORY_MSG_397;W - Chroma sub-tool !HISTORY_MSG_398;W - ES sub-tool !HISTORY_MSG_399;W - Residual sub-tool !HISTORY_MSG_400;W - Final sub-tool !HISTORY_MSG_401;W - Toning sub-tool !HISTORY_MSG_402;W - Denoise sub-tool !HISTORY_MSG_403;W - ES - Edge sensitivity !HISTORY_MSG_404;W - ES - Base amplification !HISTORY_MSG_406;W - ES - Neighboring pixels !HISTORY_MSG_407;Retinex - Method !HISTORY_MSG_408;Retinex - Radius !HISTORY_MSG_409;Retinex - Contrast !HISTORY_MSG_410;Retinex - Offset !HISTORY_MSG_411;Retinex - Strength !HISTORY_MSG_412;Retinex - Gaussian gradient !HISTORY_MSG_413;Retinex - Contrast !HISTORY_MSG_414;Retinex - Histogram - Lab !HISTORY_MSG_415;Retinex - Transmission !HISTORY_MSG_416;Retinex !HISTORY_MSG_417;Retinex - Transmission median !HISTORY_MSG_418;Retinex - Threshold !HISTORY_MSG_419;Retinex - Color space !HISTORY_MSG_420;Retinex - Histogram - HSL !HISTORY_MSG_421;Retinex - Gamma !HISTORY_MSG_422;Retinex - Gamma !HISTORY_MSG_423;Retinex - Gamma slope !HISTORY_MSG_424;Retinex - HL threshold !HISTORY_MSG_425;Retinex - Log base !HISTORY_MSG_426;Retinex - Hue equalizer !HISTORY_MSG_427;Output rendering intent !HISTORY_MSG_428;Monitor rendering intent !HISTORY_MSG_429;Retinex - Iterations !HISTORY_MSG_430;Retinex - Transmission gradient !HISTORY_MSG_431;Retinex - Strength gradient !HISTORY_MSG_432;Retinex - M - Highlights !HISTORY_MSG_433;Retinex - M - Highlights TW !HISTORY_MSG_434;Retinex - M - Shadows !HISTORY_MSG_435;Retinex - M - Shadows TW !HISTORY_MSG_436;Retinex - M - Radius !HISTORY_MSG_437;Retinex - M - Method !HISTORY_MSG_438;Retinex - M - Equalizer !HISTORY_MSG_439;Retinex - Process !HISTORY_MSG_441;Retinex - Gain transmission !HISTORY_MSG_442;Retinex - Scale !HISTORY_MSG_443;Output black point compensation !HISTORY_MSG_444;WB - Temp bias !HISTORY_MSG_446;EvPixelShiftMotion !HISTORY_MSG_447;EvPixelShiftMotionCorrection !HISTORY_MSG_448;EvPixelShiftStddevFactorGreen !HISTORY_MSG_450;EvPixelShiftNreadIso !HISTORY_MSG_451;EvPixelShiftPrnu !HISTORY_MSG_454;EvPixelShiftAutomatic !HISTORY_MSG_455;EvPixelShiftNonGreenHorizontal !HISTORY_MSG_456;EvPixelShiftNonGreenVertical !HISTORY_MSG_458;EvPixelShiftStddevFactorRed !HISTORY_MSG_459;EvPixelShiftStddevFactorBlue !HISTORY_MSG_460;EvPixelShiftGreenAmaze !HISTORY_MSG_461;EvPixelShiftNonGreenAmaze !HISTORY_MSG_463;EvPixelShiftRedBlueWeight !HISTORY_MSG_466;EvPixelShiftSum !HISTORY_MSG_467;EvPixelShiftExp0 !HISTORY_MSG_470;EvPixelShiftMedian3 !HISTORY_MSG_496;Local Spot deleted !HISTORY_MSG_497;Local Spot selected !HISTORY_MSG_498;Local Spot name !HISTORY_MSG_499;Local Spot visibility !HISTORY_MSG_500;Local Spot shape !HISTORY_MSG_501;Local Spot method !HISTORY_MSG_502;Local Spot shape method !HISTORY_MSG_503;Local Spot locX !HISTORY_MSG_504;Local Spot locXL !HISTORY_MSG_505;Local Spot locY !HISTORY_MSG_506;Local Spot locYT !HISTORY_MSG_507;Local Spot center !HISTORY_MSG_508;Local Spot circrad !HISTORY_MSG_509;Local Spot quality method !HISTORY_MSG_510;Local Spot transition !HISTORY_MSG_511;Local Spot thresh !HISTORY_MSG_512;Local Spot ΔE -decay !HISTORY_MSG_513;Local Spot scope !HISTORY_MSG_514;Local Spot structure !HISTORY_MSG_515;Local Adjustments !HISTORY_MSG_516;Local - Color and light !HISTORY_MSG_517;Local - Enable super !HISTORY_MSG_518;Local - Lightness !HISTORY_MSG_519;Local - Contrast !HISTORY_MSG_520;Local - Chrominance !HISTORY_MSG_521;Local - Scope !HISTORY_MSG_522;Local - curve method !HISTORY_MSG_523;Local - LL Curve !HISTORY_MSG_524;Local - CC curve !HISTORY_MSG_525;Local - LH Curve !HISTORY_MSG_526;Local - H curve !HISTORY_MSG_527;Local - Color Inverse !HISTORY_MSG_528;Local - Exposure !HISTORY_MSG_529;Local - Exp Compensation !HISTORY_MSG_530;Local - Exp Hlcompr !HISTORY_MSG_531;Local - Exp hlcomprthresh !HISTORY_MSG_532;Local - Exp black !HISTORY_MSG_533;Local - Exp Shcompr !HISTORY_MSG_534;Local - Warm Cool !HISTORY_MSG_535;Local - Exp Scope !HISTORY_MSG_536;Local - Exp Contrast curve !HISTORY_MSG_537;Local - Vibrance !HISTORY_MSG_538;Local - Vib Saturated !HISTORY_MSG_539;Local - Vib Pastel !HISTORY_MSG_540;Local - Vib Threshold !HISTORY_MSG_541;Local - Vib Protect skin tones !HISTORY_MSG_542;Local - Vib avoid colorshift !HISTORY_MSG_543;Local - Vib link !HISTORY_MSG_544;Local - Vib Scope !HISTORY_MSG_545;Local - Vib H curve !HISTORY_MSG_546;Local - Blur and noise !HISTORY_MSG_547;Local - Radius !HISTORY_MSG_548;Local - Noise !HISTORY_MSG_549;Local - Blur scope !HISTORY_MSG_550;Local - Blur method !HISTORY_MSG_551;Local - Blur Luminance only !HISTORY_MSG_552;Local - Tone mapping !HISTORY_MSG_553;Local - TM compression strength !HISTORY_MSG_554;Local - TM gamma !HISTORY_MSG_555;Local - TM edge stopping !HISTORY_MSG_556;Local - TM scale !HISTORY_MSG_557;Local - TM Reweighting !HISTORY_MSG_558;Local - TM scope !HISTORY_MSG_559;Local - Retinex !HISTORY_MSG_560;Local - Retinex method !HISTORY_MSG_561;Local - Retinex strength !HISTORY_MSG_562;Local - Retinex chroma !HISTORY_MSG_563;Local - Retinex radius !HISTORY_MSG_564;Local - Retinex contrast !HISTORY_MSG_565;Local - scope !HISTORY_MSG_566;Local - Retinex Gain curve !HISTORY_MSG_567;Local - Retinex Inverse !HISTORY_MSG_568;Local - Sharpening !HISTORY_MSG_569;Local - Sh Radius !HISTORY_MSG_570;Local - Sh Amount !HISTORY_MSG_571;Local - Sh Damping !HISTORY_MSG_572;Local - Sh Iterations !HISTORY_MSG_573;Local - Sh Scope !HISTORY_MSG_574;Local - Sh Inverse !HISTORY_MSG_575;Local - CBDL !HISTORY_MSG_576;Local - cbdl mult !HISTORY_MSG_577;Local - cbdl chroma !HISTORY_MSG_578;Local - cbdl threshold !HISTORY_MSG_579;Local - cbdl scope !HISTORY_MSG_580;Local - Denoise !HISTORY_MSG_581;Local - deNoise lum f 1 !HISTORY_MSG_582;Local - deNoise lum c !HISTORY_MSG_583;Local - deNoise lum detail !HISTORY_MSG_584;Local - deNoise equalizer White-Black !HISTORY_MSG_585;Local - deNoise chro f !HISTORY_MSG_586;Local - deNoise chro c !HISTORY_MSG_587;Local - deNoise chro detail !HISTORY_MSG_588;Local - deNoise equalizer Blue-Red !HISTORY_MSG_589;Local - deNoise bilateral !HISTORY_MSG_590;Local - deNoise Scope !HISTORY_MSG_591;Local - Avoid color shift !HISTORY_MSG_592;Local - Sh Contrast !HISTORY_MSG_593;Local - Local contrast !HISTORY_MSG_594;Local - Local contrast radius !HISTORY_MSG_595;Local - Local contrast amount !HISTORY_MSG_596;Local - Local contrast darkness !HISTORY_MSG_597;Local - Local contrast lightness !HISTORY_MSG_598;Local - Local contrast scope !HISTORY_MSG_599;Local - Retinex dehaze !HISTORY_MSG_600;Local - Soft Light enable !HISTORY_MSG_601;Local - Soft Light strength !HISTORY_MSG_602;Local - Soft Light scope !HISTORY_MSG_603;Local - Sh Blur radius !HISTORY_MSG_605;Local - Mask preview choice !HISTORY_MSG_606;Local Spot selected !HISTORY_MSG_607;Local - Color Mask C !HISTORY_MSG_608;Local - Color Mask L !HISTORY_MSG_609;Local - Exp Mask C !HISTORY_MSG_610;Local - Exp Mask L !HISTORY_MSG_611;Local - Color Mask H !HISTORY_MSG_612;Local - Color Structure !HISTORY_MSG_613;Local - Exp Structure !HISTORY_MSG_614;Local - Exp Mask H !HISTORY_MSG_615;Local - Blend color !HISTORY_MSG_616;Local - Blend Exp !HISTORY_MSG_617;Local - Blur Exp !HISTORY_MSG_618;Local - Use Color Mask !HISTORY_MSG_619;Local - Use Exp Mask !HISTORY_MSG_620;Local - Blur col !HISTORY_MSG_621;Local - Exp inverse !HISTORY_MSG_622;Local - Exclude structure !HISTORY_MSG_623;Local - Exp Chroma compensation !HISTORY_MSG_624;Local - Color correction grid !HISTORY_MSG_625;Local - Color correction strength !HISTORY_MSG_626;Local - Color correction Method !HISTORY_MSG_627;Local - Shadow Highlight !HISTORY_MSG_628;Local - SH Highlight !HISTORY_MSG_629;Local - SH H tonalwidth !HISTORY_MSG_630;Local - SH Shadows !HISTORY_MSG_631;Local - SH S tonalwidth !HISTORY_MSG_632;Local - SH radius !HISTORY_MSG_633;Local - SH Scope !HISTORY_MSG_634;Local - radius color !HISTORY_MSG_635;Local - radius Exp !HISTORY_MSG_636;Local - Tool added !HISTORY_MSG_637;Local - SH Mask C !HISTORY_MSG_638;Local - SH Mask L !HISTORY_MSG_639;Local - SH Mask H !HISTORY_MSG_640;Local - SH blend !HISTORY_MSG_641;Local - Use SH mask !HISTORY_MSG_642;Local - radius SH !HISTORY_MSG_643;Local - Blur SH !HISTORY_MSG_644;Local - inverse SH !HISTORY_MSG_645;Local - balance ΔE ab-L !HISTORY_MSG_646;Local - Exp mask chroma !HISTORY_MSG_647;Local - Exp mask gamma !HISTORY_MSG_648;Local - Exp mask slope !HISTORY_MSG_649;Local - Exp soft radius !HISTORY_MSG_650;Local - Color mask chroma !HISTORY_MSG_651;Local - Color mask gamma !HISTORY_MSG_652;Local - Color mask slope !HISTORY_MSG_653;Local - SH mask chroma !HISTORY_MSG_654;Local - SH mask gamma !HISTORY_MSG_655;Local - SH mask slope !HISTORY_MSG_656;Local - Color soft radius !HISTORY_MSG_657;Local - Retinex Reduce artifacts !HISTORY_MSG_658;Local - CBDL soft radius !HISTORY_MSG_659;Local Spot transition-decay !HISTORY_MSG_660;Local - cbdl clarity !HISTORY_MSG_661;Local - cbdl contrast residual !HISTORY_MSG_662;Local - deNoise lum f 0 !HISTORY_MSG_663;Local - deNoise lum f 2 !HISTORY_MSG_664;Local - cbdl Blur !HISTORY_MSG_665;Local - cbdl mask Blend !HISTORY_MSG_666;Local - cbdl mask radius !HISTORY_MSG_667;Local - cbdl mask chroma !HISTORY_MSG_668;Local - cbdl mask gamma !HISTORY_MSG_669;Local - cbdl mask slope !HISTORY_MSG_670;Local - cbdl mask C !HISTORY_MSG_671;Local - cbdl mask L !HISTORY_MSG_672;Local - cbdl mask CL !HISTORY_MSG_673;Local - Use cbdl mask !HISTORY_MSG_674;Local - Tool removed !HISTORY_MSG_675;Local - TM soft radius !HISTORY_MSG_676;Local Spot transition-differentiation !HISTORY_MSG_677;Local - TM amount !HISTORY_MSG_678;Local - TM saturation !HISTORY_MSG_679;Local - Retinex mask C !HISTORY_MSG_680;Local - Retinex mask L !HISTORY_MSG_681;Local - Retinex mask CL !HISTORY_MSG_682;Local - Retinex mask !HISTORY_MSG_683;Local - Retinex mask Blend !HISTORY_MSG_684;Local - Retinex mask radius !HISTORY_MSG_685;Local - Retinex mask chroma !HISTORY_MSG_686;Local - Retinex mask gamma !HISTORY_MSG_687;Local - Retinex mask slope !HISTORY_MSG_688;Local - Tool removed !HISTORY_MSG_689;Local - Retinex mask transmission map !HISTORY_MSG_690;Local - Retinex scale !HISTORY_MSG_691;Local - Retinex darkness !HISTORY_MSG_692;Local - Retinex lightness !HISTORY_MSG_693;Local - Retinex threshold !HISTORY_MSG_694;Local - Retinex Laplacian threshold !HISTORY_MSG_695;Local - Soft method !HISTORY_MSG_696;Local - Retinex Normalize !HISTORY_MSG_697;Local - TM Normalize !HISTORY_MSG_698;Local - Local contrast Fast Fourier !HISTORY_MSG_699;Local - Retinex Fast Fourier !HISTORY_MSG_701;Local - Exp Shadows !HISTORY_MSG_702;Local - Exp Method !HISTORY_MSG_703;Local - Exp Laplacian threshold !HISTORY_MSG_704;Local - Exp PDE balance !HISTORY_MSG_705;Local - Exp linearity !HISTORY_MSG_706;Local - TM mask C !HISTORY_MSG_707;Local - TM mask L !HISTORY_MSG_708;Local - TM mask CL !HISTORY_MSG_709;Local - use TM mask !HISTORY_MSG_710;Local - TM mask Blend !HISTORY_MSG_711;Local - TM mask radius !HISTORY_MSG_712;Local - TM mask chroma !HISTORY_MSG_713;Local - TM mask gamma !HISTORY_MSG_714;Local - TM mask slope !HISTORY_MSG_716;Local - Local method !HISTORY_MSG_717;Local - Local contrast !HISTORY_MSG_718;Local - Local contrast levels !HISTORY_MSG_719;Local - Local contrast residual L !HISTORY_MSG_720;Local - Blur mask C !HISTORY_MSG_721;Local - Blur mask L !HISTORY_MSG_722;Local - Blur mask CL !HISTORY_MSG_723;Local - use Blur mask !HISTORY_MSG_725;Local - Blur mask Blend !HISTORY_MSG_726;Local - Blur mask radius !HISTORY_MSG_727;Local - Blur mask chroma !HISTORY_MSG_728;Local - Blur mask gamma !HISTORY_MSG_729;Local - Blur mask slope !HISTORY_MSG_730;Local - Blur method !HISTORY_MSG_731;Local - median method !HISTORY_MSG_732;Local - median iterations !HISTORY_MSG_733;Local - soft radius !HISTORY_MSG_734;Local - detail !HISTORY_MSG_738;Local - Local contrast Merge L !HISTORY_MSG_739;Local - Local contrast Soft radius !HISTORY_MSG_740;Local - Local contrast Merge C !HISTORY_MSG_741;Local - Local contrast Residual C !HISTORY_MSG_742;Local - Exp Laplacian gamma !HISTORY_MSG_743;Local - Exp Fattal Amount !HISTORY_MSG_744;Local - Exp Fattal Detail !HISTORY_MSG_745;Local - Exp Fattal Offset !HISTORY_MSG_746;Local - Exp Fattal Sigma !HISTORY_MSG_747;Local Spot created !HISTORY_MSG_748;Local - Exp Denoise !HISTORY_MSG_749;Local - Reti Depth !HISTORY_MSG_750;Local - Reti Mode log - lin !HISTORY_MSG_751;Local - Reti Dehaze saturation !HISTORY_MSG_752;Local - Reti Offset !HISTORY_MSG_753;Local - Reti Transmission map !HISTORY_MSG_754;Local - Reti Clip !HISTORY_MSG_755;Local - TM use tm mask !HISTORY_MSG_756;Local - Exp use algo exposure mask !HISTORY_MSG_757;Local - Exp Laplacian mask !HISTORY_MSG_758;Local - Reti Laplacian mask !HISTORY_MSG_759;Local - Exp Laplacian mask !HISTORY_MSG_760;Local - Color Laplacian mask !HISTORY_MSG_761;Local - SH Laplacian mask !HISTORY_MSG_762;Local - cbdl Laplacian mask !HISTORY_MSG_763;Local - Blur Laplacian mask !HISTORY_MSG_764;Local - Solve PDE Laplacian mask !HISTORY_MSG_765;Local - deNoise Detail threshold !HISTORY_MSG_766;Local - Blur Fast Fourier !HISTORY_MSG_767;Local - Grain Iso !HISTORY_MSG_768;Local - Grain Strength !HISTORY_MSG_769;Local - Grain Scale !HISTORY_MSG_770;Local - Color Mask contrast curve !HISTORY_MSG_771;Local - Exp Mask contrast curve !HISTORY_MSG_772;Local - SH Mask contrast curve !HISTORY_MSG_773;Local - TM Mask contrast curve !HISTORY_MSG_774;Local - Reti Mask contrast curve !HISTORY_MSG_775;Local - CBDL Mask contrast curve !HISTORY_MSG_776;Local - Blur Denoise Mask contrast curve !HISTORY_MSG_777;Local - Blur Mask local contrast curve !HISTORY_MSG_778;Local - Mask highlights !HISTORY_MSG_779;Local - Color Mask local contrast curve !HISTORY_MSG_780;Local - Color Mask shadows !HISTORY_MSG_781;Local - Contrast Mask Wavelet level !HISTORY_MSG_782;Local - Blur Denoise Mask Wavelet levels !HISTORY_MSG_783;Local - Color Wavelet levels !HISTORY_MSG_784;Local - Mask ΔE !HISTORY_MSG_785;Local - Mask Scope ΔE !HISTORY_MSG_786;Local - SH method !HISTORY_MSG_787;Local - Equalizer multiplier !HISTORY_MSG_788;Local - Equalizer detail !HISTORY_MSG_789;Local - SH mask amount !HISTORY_MSG_790;Local - SH mask anchor !HISTORY_MSG_791;Local - Mask Short L curves !HISTORY_MSG_792;Local - Mask Luminance Background !HISTORY_MSG_793;Local - SH TRC gamma !HISTORY_MSG_794;Local - SH TRC slope !HISTORY_MSG_795;Local - Mask save restore image !HISTORY_MSG_796;Local - Recursive references !HISTORY_MSG_797;Local - Merge Original method !HISTORY_MSG_798;Local - Opacity !HISTORY_MSG_799;Local - Color RGB ToneCurve !HISTORY_MSG_800;Local - Color ToneCurve Method !HISTORY_MSG_801;Local - Color ToneCurve Special !HISTORY_MSG_802;Local - Contrast threshold !HISTORY_MSG_803;Local - Color Merge !HISTORY_MSG_804;Local - Color mask Structure !HISTORY_MSG_805;Local - Blur Noise mask Structure !HISTORY_MSG_806;Local - Color mask Structure as tool !HISTORY_MSG_807;Local - Blur Noise mask Structure as tool !HISTORY_MSG_808;Local - Color mask curve H(H) !HISTORY_MSG_809;Local - Vib mask curve C(C) !HISTORY_MSG_810;Local - Vib mask curve L(L) !HISTORY_MSG_811;Local - Vib mask curve LC(H) !HISTORY_MSG_813;Local - Use Vib mask !HISTORY_MSG_814;Local - Vib mask Blend !HISTORY_MSG_815;Local - Vib mask radius !HISTORY_MSG_816;Local - Vib mask chroma !HISTORY_MSG_817;Local - Vib mask gamma !HISTORY_MSG_818;Local - Vib mask slope !HISTORY_MSG_819;Local - Vib mask laplacian !HISTORY_MSG_820;Local - Vib mask contrast curve !HISTORY_MSG_821;Local - color grid background !HISTORY_MSG_822;Local - color background merge !HISTORY_MSG_823;Local - color background luminance !HISTORY_MSG_824;Local - Exp gradient mask strength !HISTORY_MSG_825;Local - Exp gradient mask angle !HISTORY_MSG_826;Local - Exp gradient strength !HISTORY_MSG_827;Local - Exp gradient angle !HISTORY_MSG_828;Local - SH gradient strength !HISTORY_MSG_829;Local - SH gradient angle !HISTORY_MSG_830;Local - Color gradient strength L !HISTORY_MSG_831;Local - Color gradient angle !HISTORY_MSG_832;Local - Color gradient strength C !HISTORY_MSG_833;Local - Gradient feather !HISTORY_MSG_834;Local - Color gradient strength H !HISTORY_MSG_835;Local - Vib gradient strength L !HISTORY_MSG_836;Local - Vib gradient angle !HISTORY_MSG_837;Local - Vib gradient strength C !HISTORY_MSG_838;Local - Vib gradient strength H !HISTORY_MSG_839;Local - Software complexity !HISTORY_MSG_840;Local - CL Curve !HISTORY_MSG_841;Local - LC curve !HISTORY_MSG_842;Local - Blur mask Radius !HISTORY_MSG_843;Local - Blur mask Contrast Threshold !HISTORY_MSG_844;Local - Blur mask FFTW !HISTORY_MSG_845;Local - Log encoding !HISTORY_MSG_846;Local - Log encoding auto !HISTORY_MSG_847;Local - Log encoding Source !HISTORY_MSG_849;Local - Log encoding Source auto !HISTORY_MSG_850;Local - Log encoding B_Ev !HISTORY_MSG_851;Local - Log encoding W_Ev !HISTORY_MSG_852;Local - Log encoding Target !HISTORY_MSG_853;Local - Log encodind loc contrast !HISTORY_MSG_854;Local - Log encodind Scope !HISTORY_MSG_855;Local - Log encoding Whole image !HISTORY_MSG_856;Local - Log encoding Shadows range !HISTORY_MSG_857;Local - Wavelet blur residual !HISTORY_MSG_858;Local - Wavelet blur luminance only !HISTORY_MSG_859;Local - Wavelet max blur !HISTORY_MSG_860;Local - Wavelet blur levels !HISTORY_MSG_861;Local - Wavelet contrast levels !HISTORY_MSG_862;Local - Wavelet contrast attenuation !HISTORY_MSG_863;Local - Wavelet merge original image !HISTORY_MSG_864;Local - Wavelet dir contrast attenuation !HISTORY_MSG_865;Local - Wavelet dir contrast delta !HISTORY_MSG_866;Local - Wavelet dir compression !HISTORY_MSG_868;Local - balance ΔE C-H !HISTORY_MSG_869;Local - Denoise by level !HISTORY_MSG_870;Local - Wavelet mask curve H !HISTORY_MSG_871;Local - Wavelet mask curve C !HISTORY_MSG_872;Local - Wavelet mask curve L !HISTORY_MSG_873;Local - Wavelet mask !HISTORY_MSG_875;Local - Wavelet mask blend !HISTORY_MSG_876;Local - Wavelet mask smooth !HISTORY_MSG_877;Local - Wavelet mask chroma !HISTORY_MSG_878;Local - Wavelet mask contrast curve !HISTORY_MSG_879;Local - Wavelet contrast chroma !HISTORY_MSG_880;Local - Wavelet blur chroma !HISTORY_MSG_881;Local - Wavelet contrast offset !HISTORY_MSG_882;Local - Wavelet blur !HISTORY_MSG_883;Local - Wavelet contrast by level !HISTORY_MSG_884;Local - Wavelet dir contrast !HISTORY_MSG_885;Local - Wavelet tone mapping !HISTORY_MSG_886;Local - Wavelet tone mapping compress !HISTORY_MSG_887;Local - Wavelet tone mapping compress residual !HISTORY_MSG_888;Local - Contrast Wavelet Balance Threshold !HISTORY_MSG_889;Local - Contrast Wavelet Graduated Strength !HISTORY_MSG_890;Local - Contrast Wavelet Graduated angle !HISTORY_MSG_891;Local - Contrast Wavelet Graduated !HISTORY_MSG_892;Local - Log Encoding Graduated Strength !HISTORY_MSG_893;Local - Log Encoding Graduated angle !HISTORY_MSG_894;Local - Color Preview dE !HISTORY_MSG_897;Local - Contrast Wavelet ES strength !HISTORY_MSG_898;Local - Contrast Wavelet ES radius !HISTORY_MSG_899;Local - Contrast Wavelet ES detail !HISTORY_MSG_900;Local - Contrast Wavelet ES gradient !HISTORY_MSG_901;Local - Contrast Wavelet ES threshold low !HISTORY_MSG_902;Local - Contrast Wavelet ES threshold high !HISTORY_MSG_903;Local - Contrast Wavelet ES local contrast !HISTORY_MSG_904;Local - Contrast Wavelet ES first level !HISTORY_MSG_905;Local - Contrast Wavelet Edge Sharpness !HISTORY_MSG_906;Local - Contrast Wavelet ES sensitivity !HISTORY_MSG_907;Local - Contrast Wavelet ES amplification !HISTORY_MSG_908;Local - Contrast Wavelet ES neighboring !HISTORY_MSG_909;Local - Contrast Wavelet ES show !HISTORY_MSG_910;Local - Wavelet Edge performance !HISTORY_MSG_911;Local - Blur Chroma Luma !HISTORY_MSG_912;Local - Blur Guide filter strength !HISTORY_MSG_913;Local - Contrast Wavelet Sigma DR !HISTORY_MSG_914;Local - Blur Wavelet Sigma BL !HISTORY_MSG_915;Local - Edge Wavelet Sigma ED !HISTORY_MSG_916;Local - Residual wavelet shadows !HISTORY_MSG_917;Local - Residual wavelet shadows threshold !HISTORY_MSG_918;Local - Residual wavelet highlights !HISTORY_MSG_919;Local - Residual wavelet highlights threshold !HISTORY_MSG_920;Local - Wavelet sigma LC !HISTORY_MSG_921;Local - Wavelet Graduated sigma LC2 !HISTORY_MSG_922;Local - changes In Black and White !HISTORY_MSG_923;Local - Tool complexity mode !HISTORY_MSG_924;Local - Tool complexity mode !HISTORY_MSG_925;Local - Scope color tools !HISTORY_MSG_926;Local - Show mask type !HISTORY_MSG_927;Local - Shadow !HISTORY_MSG_928;Local - Common color mask !HISTORY_MSG_929;Local - Mask common scope !HISTORY_MSG_930;Local - Mask Common blend luma !HISTORY_MSG_931;Local - Mask Common enable !HISTORY_MSG_932;Local - Mask Common radius soft !HISTORY_MSG_933;Local - Mask Common laplacian !HISTORY_MSG_934;Local - Mask Common chroma !HISTORY_MSG_935;Local - Mask Common gamma !HISTORY_MSG_936;Local - Mask Common slope !HISTORY_MSG_937;Local - Mask Common curve C(C) !HISTORY_MSG_938;Local - Mask Common curve L(L) !HISTORY_MSG_939;Local - Mask Common curve LC(H) !HISTORY_MSG_940;Local - Mask Common structure as tool !HISTORY_MSG_941;Local - Mask Common structure strength !HISTORY_MSG_942;Local - Mask Common H(H) curve !HISTORY_MSG_943;Local - Mask Common FFT !HISTORY_MSG_944;Local - Mask Common Blur radius !HISTORY_MSG_945;Local - Mask Common contrast threshold !HISTORY_MSG_946;Local - Mask Common shadows !HISTORY_MSG_947;Local - Mask Common Contrast curve !HISTORY_MSG_948;Local - Mask Common Wavelet curve !HISTORY_MSG_949;Local - Mask Common Threshold levels !HISTORY_MSG_950;Local - Mask Common GF strength !HISTORY_MSG_951;Local - Mask Common GF angle !HISTORY_MSG_952;Local - Mask Common soft radius !HISTORY_MSG_953;Local - Mask Common blend chroma !HISTORY_MSG_954;Local - Show-hide tools !HISTORY_MSG_955;Local - Enable Spot !HISTORY_MSG_956;Local - CH Curve !HISTORY_MSG_957;Local - Denoise mode !HISTORY_MSG_958;Local - Show/hide settings !HISTORY_MSG_959;Local - Inverse blur !HISTORY_MSG_960;Local - Log encoding - cat16 !HISTORY_MSG_961;Local - Log encoding Ciecam !HISTORY_MSG_962;Local - Log encoding Absolute luminance source !HISTORY_MSG_963;Local - Log encoding Absolute luminance target !HISTORY_MSG_964;Local - Log encoding Surround !HISTORY_MSG_965;Local - Log encoding Saturation s !HISTORY_MSG_966;Local - Log encoding Contrast J !HISTORY_MSG_967;Local - Log encoding Mask curve C !HISTORY_MSG_968;Local - Log encoding Mask curve L !HISTORY_MSG_969;Local - Log encoding Mask curve H !HISTORY_MSG_970;Local - Log encoding Mask enable !HISTORY_MSG_971;Local - Log encoding Mask blend !HISTORY_MSG_972;Local - Log encoding Mask radius !HISTORY_MSG_973;Local - Log encoding Mask chroma !HISTORY_MSG_974;Local - Log encoding Mask contrast !HISTORY_MSG_975;Local - Log encoding Lightness J !HISTORY_MSG_977;Local - Log encoding Contrast Q !HISTORY_MSG_978;Local - Log encoding Sursource !HISTORY_MSG_979;Local - Log encoding Brightness Q !HISTORY_MSG_980;Local - Log encoding Colorfulness M !HISTORY_MSG_981;Local - Log encoding Strength !HISTORY_MSG_982;Local - Equalizer hue !HISTORY_MSG_983;Local - denoise threshold mask high !HISTORY_MSG_984;Local - denoise threshold mask low !HISTORY_MSG_985;Local - denoise Laplacian !HISTORY_MSG_986;Local - denoise reinforce !HISTORY_MSG_987;Local - GF recovery threshold !HISTORY_MSG_988;Local - GF threshold mask low !HISTORY_MSG_989;Local - GF threshold mask high !HISTORY_MSG_990;Local - Denoise recovery threshold !HISTORY_MSG_991;Local - Denoise threshold mask low !HISTORY_MSG_992;Local - Denoise threshold mask high !HISTORY_MSG_993;Local - Denoise Inverse algo !HISTORY_MSG_994;Local - GF Inverse algo !HISTORY_MSG_995;Local - Denoise decay !HISTORY_MSG_996;Local - Color recovery threshold !HISTORY_MSG_997;Local - Color threshold mask low !HISTORY_MSG_998;Local - Color threshold mask high !HISTORY_MSG_999;Local - Color decay !HISTORY_MSG_1000;Local - Denoise luminance gray !HISTORY_MSG_1001;Local - Log recovery threshold !HISTORY_MSG_1002;Local - Log threshold mask low !HISTORY_MSG_1003;Local - Log threshold mask high !HISTORY_MSG_1004;Local - Log decay !HISTORY_MSG_1005;Local - Exp recovery threshold !HISTORY_MSG_1006;Local - Exp threshold mask low !HISTORY_MSG_1007;Local - Exp threshold mask high !HISTORY_MSG_1008;Local - Exp decay !HISTORY_MSG_1009;Local - SH recovery threshold !HISTORY_MSG_1010;Local - SH threshold mask low !HISTORY_MSG_1011;Local - SH threshold mask high !HISTORY_MSG_1012;Local - SH decay !HISTORY_MSG_1013;Local - vib recovery threshold !HISTORY_MSG_1014;Local - vib threshold mask low !HISTORY_MSG_1015;Local - vib threshold mask high !HISTORY_MSG_1016;Local - vib decay !HISTORY_MSG_1017;Local - lc recovery threshold !HISTORY_MSG_1018;Local - lc threshold mask low !HISTORY_MSG_1019;Local - lc threshold mask high !HISTORY_MSG_1020;Local - lc decay !HISTORY_MSG_1021;Local - Denoise chrominance gray !HISTORY_MSG_1022;Local - TM recovery threshold !HISTORY_MSG_1023;Local - TM threshold mask low !HISTORY_MSG_1024;Local - TM threshold mask high !HISTORY_MSG_1025;Local - TM decay !HISTORY_MSG_1026;Local - cbdl recovery threshold !HISTORY_MSG_1027;Local - cbdl threshold mask low !HISTORY_MSG_1028;Local - cbdl threshold mask high !HISTORY_MSG_1029;Local - cbdl decay !HISTORY_MSG_1030;Local - reti recovery threshold !HISTORY_MSG_1031;Local - reti threshold mask low !HISTORY_MSG_1032;Local - reti threshold mask high !HISTORY_MSG_1033;Local - reti decay !HISTORY_MSG_1034;Local - Nlmeans - strength !HISTORY_MSG_1035;Local - Nlmeans - detail !HISTORY_MSG_1036;Local - Nlmeans - patch !HISTORY_MSG_1037;Local - Nlmeans - radius !HISTORY_MSG_1038;Local - Nlmeans - gamma !HISTORY_MSG_1039;Local - Grain - gamma !HISTORY_MSG_1040;Local - Spot - soft radius !HISTORY_MSG_1041;Local - Spot - Munsell !HISTORY_MSG_1042;Local - Log encoding - threshold !HISTORY_MSG_1043;Local - Exp - normalize !HISTORY_MSG_1044;Local - Local contrast strength !HISTORY_MSG_1045;Local - Color and Light strength !HISTORY_MSG_1046;Local - Denoise strength !HISTORY_MSG_1047;Local - SH and Tone Equalizer strength !HISTORY_MSG_1048;Local - DR and Exposure strength !HISTORY_MSG_1049;Local - TM strength !HISTORY_MSG_1050;Local - Log encoding chroma !HISTORY_MSG_1051;Local - Residual wavelet gamma !HISTORY_MSG_1052;Local - Residual wavelet slope !HISTORY_MSG_1053;Local - Denoise gamma !HISTORY_MSG_1054;Local - Wavelet gamma !HISTORY_MSG_1055;Local - Color and Light gamma !HISTORY_MSG_1056;Local - DR and Exposure gamma !HISTORY_MSG_1057;Local - CIECAM Enabled !HISTORY_MSG_1058;Local - CIECAM Overall strength !HISTORY_MSG_1059;Local - CIECAM Autogray !HISTORY_MSG_1060;Local - CIECAM Mean luminance source !HISTORY_MSG_1061;Local - CIECAM Source absolute !HISTORY_MSG_1062;Local - CIECAM Surround Source !HISTORY_MSG_1063;Local - CIECAM Saturation !HISTORY_MSG_1064;Local - CIECAM Chroma !HISTORY_MSG_1065;Local - CIECAM lightness J !HISTORY_MSG_1066;Local - CIECAM brightness !HISTORY_MSG_1067;Local - CIECAM Contrast J !HISTORY_MSG_1068;Local - CIECAM threshold !HISTORY_MSG_1069;Local - CIECAM contrast Q !HISTORY_MSG_1070;Local - CIECAM colorfullness !HISTORY_MSG_1071;Local - CIECAM Absolute luminance !HISTORY_MSG_1072;Local - CIECAM Mean luminance !HISTORY_MSG_1073;Local - CIECAM Cat16 !HISTORY_MSG_1074;Local - CIECAM Local contrast !HISTORY_MSG_1075;Local - CIECAM Surround viewing !HISTORY_MSG_1076;Local - CIECAM Scope !HISTORY_MSG_1077;Local - CIECAM Mode !HISTORY_MSG_1078;Local - Red and skin protection !HISTORY_MSG_1079;Local - CIECAM Sigmoid strength J !HISTORY_MSG_1080;Local - CIECAM Sigmoid threshold !HISTORY_MSG_1081;Local - CIECAM Sigmoid blend !HISTORY_MSG_1082;Local - CIECAM Sigmoid Q BlackEv WhiteEv !HISTORY_MSG_1083;Local - CIECAM Hue !HISTORY_MSG_1084;Local - Uses Black Ev - White Ev !HISTORY_MSG_1085;Local - Jz lightness !HISTORY_MSG_1086;Local - Jz contrast !HISTORY_MSG_1087;Local - Jz chroma !HISTORY_MSG_1088;Local - Jz hue !HISTORY_MSG_1089;Local - Jz Sigmoid strength !HISTORY_MSG_1090;Local - Jz Sigmoid threshold !HISTORY_MSG_1091;Local - Jz Sigmoid blend !HISTORY_MSG_1092;Local - Jz adaptation !HISTORY_MSG_1093;Local - CAM model !HISTORY_MSG_1094;Local - Jz highligths !HISTORY_MSG_1095;Local - Jz highligths thr !HISTORY_MSG_1096;Local - Jz shadows !HISTORY_MSG_1097;Local - Jz shadows thr !HISTORY_MSG_1098;Local - Jz radius SH !HISTORY_MSG_1099;Local - Cz(Hz) Curve !HISTORY_MSG_1100;Local - Jz reference 100 !HISTORY_MSG_1101;Local - Jz PQ remap !HISTORY_MSG_1102;Local - Jz(Hz) Curve !HISTORY_MSG_1103;Local - Vibrance gamma !HISTORY_MSG_1104;Local - Sharp gamma !HISTORY_MSG_1105;Local - CIECAM Tone method !HISTORY_MSG_1106;Local - CIECAM Tone curve !HISTORY_MSG_1107;Local - CIECAM Color method !HISTORY_MSG_1108;Local - CIECAM Color curve !HISTORY_MSG_1109;Local - Jz(Jz) curve !HISTORY_MSG_1110;Local - Cz(Cz) curve !HISTORY_MSG_1111;Local - Cz(Jz) curve !HISTORY_MSG_1112;Local - forcejz !HISTORY_MSG_1113;Local - HDR PQ !HISTORY_MSG_1114;Local - Cie mask enable !HISTORY_MSG_1115;Local - Cie mask curve C !HISTORY_MSG_1116;Local - Cie mask curve L !HISTORY_MSG_1117;Local - Cie mask curve H !HISTORY_MSG_1118;Local - Cie mask blend !HISTORY_MSG_1119;Local - Cie mask radius !HISTORY_MSG_1120;Local - Cie mask chroma !HISTORY_MSG_1121;Local - Cie mask contrast curve !HISTORY_MSG_1122;Local - Cie mask recovery threshold !HISTORY_MSG_1123;Local - Cie mask recovery dark !HISTORY_MSG_1124;Local - Cie mask recovery light !HISTORY_MSG_1125;Local - Cie mask recovery decay !HISTORY_MSG_1126;Local - Cie mask laplacian !HISTORY_MSG_1127;Local - Cie mask gamma !HISTORY_MSG_1128;Local - Cie mask slope !HISTORY_MSG_1129;Local - Cie Relative luminance !HISTORY_MSG_1130;Local - Cie Saturation Jz !HISTORY_MSG_1131;Local - Mask denoise chroma !HISTORY_MSG_1132;Local - Cie Wav sigma Jz !HISTORY_MSG_1133;Local - Cie Wav level Jz !HISTORY_MSG_1134;Local - Cie Wav local contrast Jz !HISTORY_MSG_1135;Local - Cie Wav clarity Jz !HISTORY_MSG_1136;Local - Cie Wav clarity Cz !HISTORY_MSG_1137;Local - Cie Wav clarity Soft !HISTORY_MSG_1138;Local - Local - Hz(Hz) Curve !HISTORY_MSG_1139;Local - Jz soft Curves H !HISTORY_MSG_1140;Local - Jz Threshold chroma !HISTORY_MSG_1141;Local - chroma curve Jz(Hz) !HISTORY_MSG_1142;Local - strength soft !HISTORY_MSG_1143;Local - Jz blackev !HISTORY_MSG_1144;Local - Jz whiteev !HISTORY_MSG_1145;Local - Jz Log encoding !HISTORY_MSG_1146;Local - Jz Log encoding target gray !HISTORY_MSG_1147;Local - Jz BlackEv WhiteEv !HISTORY_MSG_1148;Local - Jz Sigmoid !HISTORY_MSG_1149;Local - Q Sigmoid !HISTORY_MSG_1150;Local - Log encoding Q instead Sigmoid Q !HISTORY_MSG_BLSHAPE;Blur by level !HISTORY_MSG_BLURCWAV;Blur chroma !HISTORY_MSG_BLURWAV;Blur luminance !HISTORY_MSG_BLUWAV;Attenuation response !HISTORY_MSG_CAT02PRESET;Cat02/16 automatic preset !HISTORY_MSG_CATCAT;Cat02/16 mode !HISTORY_MSG_CATCOMPLEX;Ciecam complexity !HISTORY_MSG_CATMODEL;CAM Model !HISTORY_MSG_COMPLEX;Wavelet complexity !HISTORY_MSG_COMPLEXRETI;Retinex complexity !HISTORY_MSG_DEHAZE_SATURATION;Dehaze - Saturation !HISTORY_MSG_EDGEFFECT;Edge Attenuation response !HISTORY_MSG_FILMNEGATIVE_BALANCE;FN - Reference output !HISTORY_MSG_FILMNEGATIVE_COLORSPACE;Film negative color space !HISTORY_MSG_FILMNEGATIVE_REF_SPOT;FN - Reference input !HISTORY_MSG_HLBL;Color propagation - blur !HISTORY_MSG_ICL_LABGRIDCIEXY;Cie xy !HISTORY_MSG_ICM_AINTENT;Abstract profile intent !HISTORY_MSG_ICM_BLUX;Primaries Blue X !HISTORY_MSG_ICM_BLUY;Primaries Blue Y !HISTORY_MSG_ICM_FBW;Black and White !HISTORY_MSG_ICM_GREX;Primaries Green X !HISTORY_MSG_ICM_GREY;Primaries Green Y !HISTORY_MSG_ICM_OUTPUT_PRIMARIES;Output - Primaries !HISTORY_MSG_ICM_OUTPUT_TEMP;Output - ICC-v4 illuminant D !HISTORY_MSG_ICM_OUTPUT_TYPE;Output - Type !HISTORY_MSG_ICM_PRESER;Preserve neutral !HISTORY_MSG_ICM_REDX;Primaries Red X !HISTORY_MSG_ICM_REDY;Primaries Red Y !HISTORY_MSG_ICM_WORKING_GAMMA;TRC - Gamma !HISTORY_MSG_ICM_WORKING_ILLUM_METHOD;Illuminant method !HISTORY_MSG_ICM_WORKING_PRIM_METHOD;Primaries method !HISTORY_MSG_ICM_WORKING_SLOPE;TRC - Slope !HISTORY_MSG_ICM_WORKING_TRC_METHOD;TRC method !HISTORY_MSG_ILLUM;Illuminant !HISTORY_MSG_PERSP_CAM_ANGLE;Perspective - Camera !HISTORY_MSG_PERSP_CAM_FL;Perspective - Camera !HISTORY_MSG_PERSP_CAM_SHIFT;Perspective - Camera !HISTORY_MSG_PERSP_CTRL_LINE;Perspective - Control lines !HISTORY_MSG_PERSP_METHOD;Perspective - Method !HISTORY_MSG_PERSP_PROJ_ANGLE;Perspective - Recovery !HISTORY_MSG_PERSP_PROJ_ROTATE;Perspective - PCA rotation !HISTORY_MSG_PERSP_PROJ_SHIFT;Perspective - PCA !HISTORY_MSG_PIXELSHIFT_AVERAGE;PS - Average !HISTORY_MSG_PREPROCWB_MODE;Preprocess WB Mode !HISTORY_MSG_PROTAB;Protection !HISTORY_MSG_RANGEAB;Range ab !HISTORY_MSG_RESIZE_LONGEDGE;Resize - Long Edge !HISTORY_MSG_RESIZE_SHORTEDGE;Resize - Short Edge !HISTORY_MSG_SIGMACOL;Chroma Attenuation response !HISTORY_MSG_SIGMADIR;Dir Attenuation response !HISTORY_MSG_SIGMAFIN;Final contrast Attenuation response !HISTORY_MSG_SIGMATON;Toning Attenuation response !HISTORY_MSG_SPOT;Spot removal !HISTORY_MSG_SPOT_ENTRY;Spot removal - Point modif. !HISTORY_MSG_TEMPOUT;CAM02 automatic temperature !HISTORY_MSG_THRESWAV;Balance threshold !HISTORY_MSG_TRANS_METHOD;Geometry - Method !HISTORY_MSG_WAVBALCHROM;Equalizer chrominance !HISTORY_MSG_WAVBALLUM;Equalizer luminance !HISTORY_MSG_WAVBL;Blur levels !HISTORY_MSG_WAVCHR;Blur levels - blur chroma !HISTORY_MSG_WAVCHROMCO;Chroma coarse !HISTORY_MSG_WAVCHROMFI;Chroma fine !HISTORY_MSG_WAVCLARI;Clarity !HISTORY_MSG_WAVDENLH;Level 5 !HISTORY_MSG_WAVDENMET;Local equalizer !HISTORY_MSG_WAVDENOISE;Local contrast !HISTORY_MSG_WAVDENOISEH;High levels Local contrast !HISTORY_MSG_WAVDETEND;Details soft !HISTORY_MSG_WAVEDGS;Edge stopping !HISTORY_MSG_WAVGUIDH;Local contrast-Hue equalizer !HISTORY_MSG_WAVHUE;Equalizer hue !HISTORY_MSG_WAVLABGRID_VALUE;Toning - exclude colors !HISTORY_MSG_WAVLEVDEN;High level local contrast !HISTORY_MSG_WAVLEVELSIGM;Denoise - radius !HISTORY_MSG_WAVLEVSIGM;Radius !HISTORY_MSG_WAVLIMDEN;Interaction 56 14 !HISTORY_MSG_WAVLOWTHR;Threshold low contrast !HISTORY_MSG_WAVMERGEC;Merge C !HISTORY_MSG_WAVMERGEL;Merge L !HISTORY_MSG_WAVMIXMET;Reference local contrast !HISTORY_MSG_WAVOFFSET;Offset !HISTORY_MSG_WAVOLDSH;Old algorithm !HISTORY_MSG_WAVQUAMET;Denoise mode !HISTORY_MSG_WAVRADIUS;Radius shadows-highlights !HISTORY_MSG_WAVSCALE;Scale !HISTORY_MSG_WAVSHOWMASK;Show wavelet mask !HISTORY_MSG_WAVSIGM;Sigma !HISTORY_MSG_WAVSIGMA;Attenuation response !HISTORY_MSG_WAVSLIMET;Method !HISTORY_MSG_WAVSOFTRAD;Soft radius clarity !HISTORY_MSG_WAVSOFTRADEND;Soft radius final !HISTORY_MSG_WAVSTREND;Strength soft !HISTORY_MSG_WAVTHRDEN;Threshold local contrast !HISTORY_MSG_WAVTHREND;Threshold local contrast !HISTORY_MSG_WAVUSHAMET;Clarity method !ICCPROFCREATOR_COPYRIGHT_RESET_TOOLTIP;Reset to the default copyright, granted to "RawTherapee, CC0" !ICCPROFCREATOR_DESCRIPTION_ADDPARAM;Append gamma and slope values to the description !ICCPROFCREATOR_DESCRIPTION_TOOLTIP;Leave empty to set the default description. !ICCPROFCREATOR_GAMMA;Gamma !ICCPROFCREATOR_ICCVERSION;ICC version: !ICCPROFCREATOR_ILL;Illuminant: !ICCPROFCREATOR_ILL_41;D41 !ICCPROFCREATOR_ILL_50;D50 !ICCPROFCREATOR_ILL_55;D55 !ICCPROFCREATOR_ILL_60;D60 !ICCPROFCREATOR_ILL_63;D63 : DCI-P3 Theater !ICCPROFCREATOR_ILL_65;D65 !ICCPROFCREATOR_ILL_80;D80 !ICCPROFCREATOR_ILL_DEF;Default !ICCPROFCREATOR_ILL_INC;StdA 2856K !ICCPROFCREATOR_ILL_TOOLTIP;You can set the illuminant for ICC v4 profiles and also for ICC v2 profiles. !ICCPROFCREATOR_PRIMARIES;Primaries: !ICCPROFCREATOR_PRIM_ACESP0;ACES AP0 !ICCPROFCREATOR_PRIM_ACESP1;ACES AP1 !ICCPROFCREATOR_PRIM_ADOBE;Adobe RGB (1998) !ICCPROFCREATOR_PRIM_BEST;BestRGB !ICCPROFCREATOR_PRIM_BETA;BetaRGB !ICCPROFCREATOR_PRIM_BLUX;Blue X !ICCPROFCREATOR_PRIM_BLUY;Blue Y !ICCPROFCREATOR_PRIM_BRUCE;BruceRGB !ICCPROFCREATOR_PRIM_DCIP3;DCI-P3 !ICCPROFCREATOR_PRIM_GREX;Green X !ICCPROFCREATOR_PRIM_GREY;Green Y !ICCPROFCREATOR_PRIM_PROPH;Prophoto !ICCPROFCREATOR_PRIM_REC2020;Rec2020 !ICCPROFCREATOR_PRIM_REDX;Red X !ICCPROFCREATOR_PRIM_REDY;Red Y !ICCPROFCREATOR_PRIM_SRGB;sRGB !ICCPROFCREATOR_PRIM_TOOLTIP;You can set custom primaries for ICC v4 profiles and also for ICC v2 profiles. !ICCPROFCREATOR_PRIM_WIDEG;Widegamut !ICCPROFCREATOR_PROF_V2;ICC v2 !ICCPROFCREATOR_PROF_V4;ICC v4 !ICCPROFCREATOR_SLOPE;Slope !ICCPROFCREATOR_TRC_PRESET;Tone response curve !INSPECTOR_WINDOW_TITLE;Inspector !IPTCPANEL_CATEGORYHINT;Identifies the subject of the image in the opinion of the provider. !IPTCPANEL_CITYHINT;Enter the name of the city pictured in this image. !IPTCPANEL_COPYRIGHT;Copyright notice !IPTCPANEL_COPYRIGHTHINT;Enter a Notice on the current owner of the Copyright for this image, such as ©2008 Jane Doe. !IPTCPANEL_COUNTRYHINT;Enter the name of the country pictured in this image. !IPTCPANEL_CREATOR;Creator !IPTCPANEL_CREATORHINT;Enter the name of the person that created this image. !IPTCPANEL_CREATORJOBTITLE;Creator's job title !IPTCPANEL_CREATORJOBTITLEHINT;Enter the Job Title of the person listed in the Creator field. !IPTCPANEL_DATECREATEDHINT;Enter the Date the image was taken. !IPTCPANEL_DESCRIPTION;Description !IPTCPANEL_DESCRIPTIONHINT;Enter a "caption" describing the who, what, and why of what is happening in this image, this might include names of people, and/or their role in the action that is taking place within the image. !IPTCPANEL_DESCRIPTIONWRITER;Description writer !IPTCPANEL_DESCRIPTIONWRITERHINT;Enter the name of the person involved in writing, editing or correcting the description of the image. !IPTCPANEL_HEADLINEHINT;Enter a brief publishable synopsis or summary of the contents of the image. !IPTCPANEL_INSTRUCTIONSHINT;Enter information about embargoes, or other restrictions not covered by the Copyright field. !IPTCPANEL_KEYWORDSHINT;Enter any number of keywords, terms or phrases used to express the subject matter in the image. !IPTCPANEL_PROVINCE;Province or state !IPTCPANEL_PROVINCEHINT;Enter the name of the province or state pictured in this image. !IPTCPANEL_SOURCEHINT;Enter or edit the name of a person or party who has a role in the content supply chain, such as a person or entity from whom you received this image from. !IPTCPANEL_SUPPCATEGORIES;Supplemental categories !IPTCPANEL_SUPPCATEGORIESHINT;Further refines the subject of the image. !IPTCPANEL_TITLEHINT;Enter a short verbal and human readable name for the image, this may be the file name. !IPTCPANEL_TRANSREFERENCE;Job ID !IPTCPANEL_TRANSREFERENCEHINT;Enter a number or identifier needed for workflow control or tracking. !MAIN_BUTTON_ICCPROFCREATOR;ICC Profile Creator !MAIN_BUTTON_NAVNEXT_TOOLTIP;Navigate to the next image relative to image opened in the Editor.\nShortcut: Shift-F4\n\nTo navigate to the next image relative to the currently selected thumbnail in the File Browser or Filmstrip:\nShortcut: F4 !MAIN_BUTTON_NAVPREV_TOOLTIP;Navigate to the previous image relative to image opened in the Editor.\nShortcut: Shift-F3\n\nTo navigate to the previous image relative to the currently selected thumbnail in the File Browser or Filmstrip:\nShortcut: F3 !MAIN_BUTTON_NAVSYNC_TOOLTIP;Synchronize the File Browser or Filmstrip with the Editor to reveal the thumbnail of the currently opened image, and clear any active filters.\nShortcut: x\n\nAs above, but without clearing active filters:\nShortcut: y\n(Note that the thumbnail of the opened image will not be shown if filtered out). !MAIN_MSG_IMAGEUNPROCESSED;This command requires all selected images to be queue-processed first. !MAIN_TAB_LOCALLAB;Local !MAIN_TAB_LOCALLAB_TOOLTIP;Shortcut: Alt-o !MAIN_TOOLTIP_BEFOREAFTERLOCK;Lock / Unlock the Before view\n\nLock: keep the Before view unchanged.\nUseful to evaluate the cumulative effect of multiple tools.\nAdditionally, comparisons can be made to any state in the History.\n\nUnlock: the Before view will follow the After view one step behind, showing the image before the effect of the currently used tool. !PARTIALPASTE_LOCALLAB;Local Adjustments !PARTIALPASTE_LOCALLABGROUP;Local Adjustments Settings !PARTIALPASTE_LOCGROUP;Local !PARTIALPASTE_PREPROCWB;Preprocess White Balance !PARTIALPASTE_RETINEX;Retinex !PARTIALPASTE_SPOT;Spot removal !PREFERENCES_CHUNKSIZE_RAW_XT;Xtrans demosaic !PREFERENCES_CIE;Ciecam !PREFERENCES_CIEARTIF;Avoid artifacts !PREFERENCES_COMPLEXITYLOC;Default complexity for Local Adjustments !PREFERENCES_COMPLEXITY_EXP;Advanced !PREFERENCES_COMPLEXITY_NORM;Standard !PREFERENCES_COMPLEXITY_SIMP;Basic !PREFERENCES_CUSTPROFBUILD;Custom Processing Profile Builder !PREFERENCES_CUSTPROFBUILDHINT;Executable (or script) file called when a new initial processing profile should be generated for an image.\n\nThe path of the communication file (*.ini style, a.k.a. "Keyfile") is added as a command line parameter. It contains various parameters required for the scripts and image Exif to allow a rules-based processing profile generation.\n\nWARNING: You are responsible for using double quotes where necessary if you're using paths containing spaces. !PREFERENCES_CUSTPROFBUILDKEYFORMAT;Keys format !PREFERENCES_CUSTPROFBUILDKEYFORMAT_NAME;Name !PREFERENCES_CUSTPROFBUILDKEYFORMAT_TID;TagID !PREFERENCES_EXTEDITOR_BYPASS_OUTPUT_PROFILE;Bypass output profile !PREFERENCES_EXTEDITOR_DIR;Output directory !PREFERENCES_EXTEDITOR_DIR_CURRENT;Same as input image !PREFERENCES_EXTEDITOR_DIR_CUSTOM;Custom !PREFERENCES_EXTEDITOR_DIR_TEMP;OS temp dir !PREFERENCES_EXTEDITOR_FLOAT32;32-bit float TIFF output !PREFERENCES_INSPECTORWINDOW;Open inspector in own window or fullscreen !PREFERENCES_INSPECT_MAXBUFFERS_TOOLTIP;Set the maximum number of images stored in cache when hovering over them in the File Browser; systems with little RAM (2GB) should keep this value set to 1 or 2. !PREFERENCES_SHOWTOOLTIP;Show Local Adjustments advice tooltips !PREFERENCES_ZOOMONSCROLL;Zoom images by scrolling !PROGRESSDLG_PROFILECHANGEDINBROWSER;Processing profile changed in browser !SAMPLEFORMAT_1;8-bit unsigned !SAMPLEFORMAT_2;16-bit unsigned !SAMPLEFORMAT_4;24-bit LogLuv !SAMPLEFORMAT_8;32-bit LogLuv !SAVEDLG_SUBSAMP_TOOLTIP;Best compression:\nJ:a:b 4:2:0\nh/v 2/2\nChroma halved horizontally and vertically.\n\nBalanced:\nJ:a:b 4:2:2\nh/v 2/1\nChroma halved horizontally.\n\nBest quality:\nJ:a:b 4:4:4\nh/v 1/1\nNo chroma subsampling. !SHCSELECTOR_TOOLTIP;Click right mouse button to reset the position of those 3 sliders. !SOFTPROOF_GAMUTCHECK_TOOLTIP;Highlight pixels with out-of-gamut colors with respect to:\n- the printer profile, if one is set and soft-proofing is enabled,\n- the output profile, if a printer profile is not set and soft-proofing is enabled,\n- the monitor profile, if soft-proofing is disabled. !SOFTPROOF_TOOLTIP;Soft-proofing simulates the appearance of the image:\n- when printed, if a printer profile is set in Preferences > Color Management,\n- when viewed on a display that uses the current output profile, if a printer profile is not set. !TC_PRIM_BLUX;Bx !TC_PRIM_BLUY;By !TC_PRIM_GREX;Gx !TC_PRIM_GREY;Gy !TC_PRIM_REDX;Rx !TC_PRIM_REDY;Ry !THRESHOLDSELECTOR_B;Bottom !THRESHOLDSELECTOR_BL;Bottom-left !THRESHOLDSELECTOR_BR;Bottom-right !THRESHOLDSELECTOR_HINT;Hold the Shift key to move individual control points. !THRESHOLDSELECTOR_T;Top !THRESHOLDSELECTOR_TL;Top-left !THRESHOLDSELECTOR_TR;Top-right !TOOLBAR_TOOLTIP_COLORPICKER;Lockable Color Picker\n\nWhen the tool is active:\n- Add a picker: left-click.\n- Drag a picker: left-click and drag.\n- Delete a picker: right-click.\n- Delete all pickers: Ctrl+Shift+right-click.\n- Revert to hand tool: right-click outside any picker. !TOOLBAR_TOOLTIP_PERSPECTIVE;Perspective Correction\n\nEdit control lines to correct perspective distortion. Click this button again to apply correction. !TP_BWMIX_ALGO;Algorithm OYCPM !TP_BWMIX_ALGO_TOOLTIP;Linear: will produce a normal linear response.\nSpecial effects: will produce special effects by mixing channels non-linearly. !TP_BWMIX_CC_ENABLED;Adjust complementary color !TP_BWMIX_CC_TOOLTIP;Enable to allow automatic adjustment of complementary colors in ROYGCBPM mode. !TP_BWMIX_RGBLABEL_HINT;Final RGB factors that take care of all the mixer options.\n"Total" displays the sum of the RGB values:\n- always 100% in relative mode\n- higher (lighter) or lower (darker) than 100% in absolute mode. !TP_BWMIX_RGB_TOOLTIP;Mix the RGB channels. Use presets for guidance.\nPay attention to negative values that may cause artifacts or erratic behavior. !TP_COLORAPP_ADAPSCEN_TOOLTIP;Corresponds to the luminance in candelas per m2 at the time of shooting, calculated automatically from the exif data. !TP_COLORAPP_CATCLASSIC;Classic !TP_COLORAPP_CATMET_TOOLTIP;Classic - traditional CIECAM operation. The chromatic adaptation transforms are applied separately on ‘Scene conditions’ and basic illuminant on the one hand, and on basic illuminant and ‘Viewing conditions’ on the other.\n\nSymmetric – The chromatic adaptation is based on the white balance. The ‘Scene conditions’, ‘Image adjustments’ and ‘Viewing conditions’ settings are neutralized.\n\nMixed – Same as the ‘Classic’ option but in this case, the chromatic adaptation is based on the white balance. !TP_COLORAPP_CATMOD;Cat02/16 mode !TP_COLORAPP_CATSYMGEN;Automatic Symmetric !TP_COLORAPP_CATSYMSPE;Mixed !TP_COLORAPP_DEGREE_TOOLTIP;CAT02/16 is a chromatic adaptation, it converts the values of an image whose white point is that of a given illuminant (for example D65), into new values whose white point is that of the new illuminant - see WP Model (for example D50 or D55). !TP_COLORAPP_DEGREOUT_TOOLTIP;CAT02/16 is a chromatic adaptation, it converts the values of an image whose white point is that of a given illuminant (for example D50), into new values whose white point is that of the new illuminant - see WP model (for example D75). !TP_COLORAPP_GEN;Settings - Preset !TP_COLORAPP_GEN_TOOLTIP;This module is based on the CIECAM color appearance model, which was designed to better simulate how human vision perceives colors under different lighting conditions, e.g., against different backgrounds.\nIt takes into account the environment of each color and modifies its appearance to get as close as possible to human perception.\nIt also adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic appearance is preserved across the scene and display environments. !TP_COLORAPP_IL41;D41 !TP_COLORAPP_IL50;D50 !TP_COLORAPP_IL55;D55 !TP_COLORAPP_IL60;D60 !TP_COLORAPP_IL65;D65 !TP_COLORAPP_IL75;D75 !TP_COLORAPP_ILA;Incandescent StdA 2856K !TP_COLORAPP_ILFREE;Free !TP_COLORAPP_ILLUM;Illuminant !TP_COLORAPP_ILLUM_TOOLTIP;Select the illuminant closest to the shooting conditions.\nIn general D50, but it can change depending on the time and latitude. !TP_COLORAPP_MOD02;CIECAM02 !TP_COLORAPP_MOD16;CIECAM16 !TP_COLORAPP_MODELCAT;CAM Model !TP_COLORAPP_MODELCAT_TOOLTIP;Allows you to choose between CIECAM02 or CIECAM16.\n CIECAM02 will sometimes be more accurate.\n CIECAM16 should generate fewer artifacts !TP_COLORAPP_PRESETCAT02;Preset cat02/16 automatic - Symmetric mode !TP_COLORAPP_PRESETCAT02_TIP;Set combobox, sliders, temp, green so that Cat02/16 automatic is preset.\nYou can change illuminant shooting conditions.\nYou must change Cat02/16 adaptation Viewing conditions if needed.\nYou can change Temperature and Tint Viewing conditions if needed, and other settings if needed.\nAll auto checkbox are disabled !TP_COLORAPP_SOURCEF_TOOLTIP;Corresponds to the shooting conditions and how to bring the conditions and data back to a "normal" area. Normal" means average or standard conditions and data, i.e. without taking into account CIECAM corrections. !TP_COLORAPP_SURROUNDSRC;Surround - Scene Lighting !TP_COLORAPP_SURSOURCE_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\nAverage: Average light environment (standard). The image will not change.\n\nDim: Dim environment. The image will become slightly bright.\n\nDark: Dark environment. The image will become more bright.\n\nExtremly Dark: Extremly dark environment. The image will become very bright. !TP_COLORAPP_TEMP2_TOOLTIP;Either symmetrical mode temp = White balance.\nEither select illuminant always set Tint=1.\n\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504 !TP_COLORAPP_TEMPOUT_TOOLTIP;Disable to change temperature and tint !TP_COLORAPP_TEMP_TOOLTIP;To select an illuminant, always set Tint=1.\n\nA temp=2856\nD41 temp=4100\nD50 temp=5003\nD55 temp=5503\nD60 temp=6000\nD65 temp=6504\nD75 temp=7504 !TP_COLORAPP_VIEWINGF_TOOLTIP;Takes into account the support on which the final image will be viewed (monitor, TV, projector, printer, ...), as well as its environment. This process will take the data coming from process "Image Adjustments" and "bring" it to the support in such a way that the viewing conditions and its environment are taken into account. !TP_COLORAPP_YBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image !TP_COLORAPP_YBSCEN_TOOLTIP;Yb is the relative luminance of the background, expressed in % of gray. 18% gray corresponds to a background luminance of 50% expressed in CIE L.\nThe data is based on the mean luminance of the image !TP_COLORTONING_AB;o C/L !TP_COLORTONING_BY;o C/L !TP_COLORTONING_LABGRID_VALUES;HL: a=%1 b=%2\nS: a=%3 b=%4 !TP_COLORTONING_LABREGION_ABVALUES;a=%1 b=%2 !TP_COLORTONING_LABREGION_CHROMATICITYMASK;C !TP_COLORTONING_LABREGION_HUEMASK;H !TP_COLORTONING_LABREGION_LIGHTNESSMASK;L !TP_CROP_GTCENTEREDSQUARE;Centered square !TP_CROP_PPI;PPI !TP_DEHAZE_SATURATION;Saturation !TP_DIRPYRDENOISE_CHROMINANCE_METHOD_TOOLTIP;Manual\nActs on the full image.\nYou control the noise reduction settings manually.\n\nAutomatic global\nActs on the full image.\n9 zones are used to calculate a global chrominance noise reduction setting.\n\nAutomatic multi-zones\nNo preview - works only during saving, but using the "Preview" method by matching the tile size and center to the preview size and center you can get an idea of the expected results.\nThe image is divided into tiles (about 10 to 70 depending on image size) and each tile receives its own chrominance noise reduction settings.\n\nPreview\nActs on the whole image.\nThe part of the image visible in the preview is used to calculate global chrominance noise reduction settings. !TP_DIRPYRDENOISE_CHROMINANCE_PMZ;Preview multi-zones !TP_DIRPYREQUALIZER_ALGO_TOOLTIP;Fine: closer to the colors of the skin, minimizing the action on other colors\nLarge: avoid more artifacts. !TP_DIRPYREQUALIZER_HUESKIN_TOOLTIP;This pyramid is for the upper part, so far as the algorithm at its maximum efficiency.\nTo the lower part, the transition zones.\nIf you need to move the area significantly to the left or right - or if there are artifacts: the white balance is incorrect\nYou can slightly reduce the zone to prevent the rest of the image is affected. !TP_DIRPYREQUALIZER_TOOLTIP;Attempts to reduce artifacts in the transitions between skin colors (hue, chroma, luma) and the rest of the image. !TP_DISTORTION_AUTO_TIP;Automatically corrects lens distortion in raw files by matching it against the embedded JPEG image if one exists and has had its lens disortion auto-corrected by the camera. !TP_FILMNEGATIVE_BLUEBALANCE;Cool/Warm !TP_FILMNEGATIVE_COLORSPACE;Inversion color space: !TP_FILMNEGATIVE_COLORSPACE_INPUT;Input color space !TP_FILMNEGATIVE_COLORSPACE_TOOLTIP;Select the color space used to perform the negative inversion:\nInput color space : perform inversion before the input profile is applied, as in the previous versions of RT.\nWorking color space : perform inversion after input profile, using the currently selected working profile. !TP_FILMNEGATIVE_COLORSPACE_WORKING;Working color space !TP_FILMNEGATIVE_GREENBALANCE;Magenta/Green !TP_FILMNEGATIVE_OUT_LEVEL;Output level !TP_FILMNEGATIVE_REF_LABEL;Input RGB: %1 !TP_FILMNEGATIVE_REF_PICK;Pick white balance spot !TP_FILMNEGATIVE_REF_TOOLTIP;Pick a gray patch for white-balancing the output, positive image. !TP_HLREC_HLBLUR;Blur !TP_ICM_APPLYBASELINEEXPOSUREOFFSET;Baseline exposure !TP_ICM_APPLYBASELINEEXPOSUREOFFSET_TOOLTIP;Employ the embedded DCP baseline exposure offset. The setting is only available if the selected DCP has one. !TP_ICM_APPLYHUESATMAP;Base table !TP_ICM_APPLYHUESATMAP_TOOLTIP;Employ the embedded DCP base table (HueSatMap). The setting is only available if the selected DCP has one. !TP_ICM_APPLYLOOKTABLE;Look table !TP_ICM_APPLYLOOKTABLE_TOOLTIP;Employ the embedded DCP look table. The setting is only available if the selected DCP has one. !TP_ICM_BLUFRAME;Blue Primaries !TP_ICM_BPC;Black Point Compensation !TP_ICM_DCPILLUMINANT;Illuminant !TP_ICM_DCPILLUMINANT_INTERPOLATED;Interpolated !TP_ICM_DCPILLUMINANT_TOOLTIP;Select which embedded DCP illuminant to employ. Default is "interpolated" which is a mix between the two based on white balance. The setting is only available if a dual-illuminant DCP with interpolation support is selected. !TP_ICM_FBW;Black-and-White !TP_ICM_GREFRAME;Green Primaries !TP_ICM_ILLUMPRIM_TOOLTIP;Choose the illuminant closest to the shooting conditions.\nChanges can only be made when the ‘Destination primaries’ selection is set to ‘Custom (sliders)’. !TP_ICM_INPUTCAMERAICC_TOOLTIP;Use RawTherapee's camera-specific DCP or ICC input color profiles. These profiles are more precise than simpler matrix ones. They are not available for all cameras. These profiles are stored in the /iccprofiles/input and /dcpprofiles folders and are automatically retrieved based on a file name matching to the exact model name of the camera. !TP_ICM_INPUTCAMERA_TOOLTIP;Use a simple color matrix from dcraw, an enhanced RawTherapee version (whichever is available based on camera model) or one embedded in the DNG. !TP_ICM_LABGRID_CIEXY;R(x)=%1 R(y)=%2\nG(x)=%3 G(y)=%4\nB(x)=%5 B(y)=%6 !TP_ICM_NEUTRAL;Reset !TP_ICM_OUTPUTPROFILE_TOOLTIP;By default all RTv4 or RTv2 profiles are with TRC - sRGB: g=2.4 s=12.92\n\nWith 'ICC Profile Creator' you can generate v4 or v2 profiles with the following choices;\n-Primaries: Aces AP0, Aces AP1, AdobeRGB, Prophoto, Rec2020, sRGB, Widegamut, BestRGB, BetaRGB, BruceRGB, Custom\n-TRC: BT709, sRGB, linear, standard g=2.2, standard g=1.8, Custom\n-Illuminant: D41, D50, D55, D60, D65, D80, stdA 2856K !TP_ICM_PRIMBLU_TOOLTIP;Primaries Blue:\nsRGB x=0.15 y=0.06\nAdobe x=0.15 y=0.06\nWidegamut x=0.157 y=0.018\nRec2020 x=0.131 y=0.046\nACES P1 x=0.128 y= 0.044\nACES P0 x=0.0001 y=-0.077\nProphoto x=0.0366 y=0.0001\nBruceRGB x=0.15 y=0.06\nBeta RGB x=0.1265 y=0.0352\nBestRGB x=0.131 y=0.046 !TP_ICM_PRIMGRE_TOOLTIP;Primaries Green:\nsRGB x=0.3 y=0.6\nAdobe x=0.21 y=0.71\nWidegamut x=0.115 y=0.826\nRec2020 x=0.17 y=0.797\nACES P1 x=0.165 y= 0.83\nACES P0 x=0.0 y=1.0\nProphoto x=0.1596 y=0.8404\nBruceRGB x=0.28 y=0.65\nBeta RGB x=0.1986 y=0.7551\nBest RGB x=0.2150 0.7750 !TP_ICM_PRIMILLUM_TOOLTIP;You can change an image from its original mode (‘working profile’) to a different mode (‘destination primaries’). When you choose a different color mode for an image, you permanently change the color values in the image.\n\nChanging the ‘primaries’ is quite complex and difficult to use. It requires a lot of experimenting.\n It is capable of making exotic color adjustments as Channel Mixer primaries.\n Allows you to modify the camera calibration with Custom (sliders). !TP_ICM_PRIMRED_TOOLTIP;Primaries Red:\nsRGB x=0.64 y=0.33\nAdobe x=0.64 y=0.33\nWidegamut x=0.735 y=0.265\nRec2020 x=0.708 y=0.292\nACES P1 x=0.713 y= 0.293\nACES P0 x=0.7347 y=0.2653\nProphoto x=0.7347 y=0.2653\nBruceRGB x=0.64 y=0.33\nBeta RGB x=0.688 y=0.3112\nBestRGB x=0.7347 y=0.2653 !TP_ICM_REDFRAME;Custom Primaries !TP_ICM_SAVEREFERENCE;Save Reference Image !TP_ICM_SAVEREFERENCE_APPLYWB_TOOLTIP;Generally, apply the white balance when saving images to create ICC profiles, and do not apply the white balance to create DCP profiles. !TP_ICM_SAVEREFERENCE_TOOLTIP;Save the linear TIFF image before the input profile is applied. The result can be used for calibration purposes and generation of a camera profile. !TP_ICM_TONECURVE_TOOLTIP;Employ the embedded DCP tone curve. The setting is only available if the selected DCP has a tone curve. !TP_ICM_TRCFRAME;Abstract Profile !TP_ICM_TRCFRAME_TOOLTIP;Also known as ‘synthetic’ or ‘virtual’ profiles, which are applied at the end of the processing pipeline (prior to ciecam) allowing you to create custom image effects.\nYou can make changes to the:\n ‘Tone response curve’, which modifies the tones of the image.\n ‘Illuminant’ : which allows you to change the profile primaries to adapt them to the shooting conditions.\n ‘Destination primaries’: which allows you to change the destination primaries with two main uses - channel mixer and calibration.\nNote: Abstract profiles take into account the built-in Working profiles without modifying them. They do not work with custom Working profiles. !TP_ICM_TRC_TOOLTIP;Allows you to change the default sRGB ‘Tone response curve’ in RT (g=2.4 s=12.92).\nThis TRC modifies the tones of the image. The RGB and Lab values, histogram and output (screen, TIF, JPG) are changed:\n-Gamma acts mainly on light tones -Slope acts mainly on dark tones.\nYou can choose any pair of 'gamma and slope' (values >1) and the algorithm will ensure that there is continuity between the linear and parabolic parts of the curve.\nA selection other than 'none' activates the 'Illuminant' and 'Destination primaries' menus. !TP_ICM_WORKING_CIEDIAG;CIE xy diagram !TP_ICM_WORKING_ILLU;Illuminant !TP_ICM_WORKING_ILLU_1500;Tungsten 1500K !TP_ICM_WORKING_ILLU_2000;Tungsten 2000K !TP_ICM_WORKING_ILLU_D41;D41 !TP_ICM_WORKING_ILLU_D50;D50 !TP_ICM_WORKING_ILLU_D55;D55 !TP_ICM_WORKING_ILLU_D60;D60 !TP_ICM_WORKING_ILLU_D65;D65 !TP_ICM_WORKING_ILLU_D80;D80 !TP_ICM_WORKING_ILLU_D120;D120 !TP_ICM_WORKING_ILLU_NONE;Default !TP_ICM_WORKING_ILLU_STDA;stdA 2875K !TP_ICM_WORKING_PRESER;Preserves Pastel tones !TP_ICM_WORKING_PRIM;Destination primaries !TP_ICM_WORKING_PRIMFRAME_TOOLTIP;When ‘Custom CIE xy diagram’ is selected in ‘Destination- primaries’’ combobox, you can modify the values of the 3 primaries directly on the graph.\nNote that in this case, the white point position on the graph will not be updated. !TP_ICM_WORKING_PRIM_AC0;ACESp0 !TP_ICM_WORKING_PRIM_ACE;ACESp1 !TP_ICM_WORKING_PRIM_ADOB;Adobe RGB !TP_ICM_WORKING_PRIM_BET;Beta RGB !TP_ICM_WORKING_PRIM_BRU;BruceRGB !TP_ICM_WORKING_PRIM_BST;BestRGB !TP_ICM_WORKING_PRIM_CUS;Custom (sliders) !TP_ICM_WORKING_PRIM_CUSGR;Custom (CIE xy Diagram) !TP_ICM_WORKING_PRIM_NONE;Default !TP_ICM_WORKING_PRIM_PROP;ProPhoto !TP_ICM_WORKING_PRIM_REC;Rec2020 !TP_ICM_WORKING_PRIM_SRGB;sRGB !TP_ICM_WORKING_PRIM_WID;WideGamut !TP_ICM_WORKING_TRC;Tone response curve: !TP_ICM_WORKING_TRC_18;Prophoto g=1.8 !TP_ICM_WORKING_TRC_22;Adobe g=2.2 !TP_ICM_WORKING_TRC_BT709;BT709 g=2.22 s=4.5 !TP_ICM_WORKING_TRC_GAMMA;Gamma !TP_ICM_WORKING_TRC_LIN;Linear g=1 !TP_ICM_WORKING_TRC_NONE;None !TP_ICM_WORKING_TRC_SLOPE;Slope !TP_ICM_WORKING_TRC_SRGB;sRGB g=2.4 s=12.92 !TP_ICM_WORKING_TRC_TOOLTIP;Only for built-in profiles. !TP_LABCURVE_CURVEEDITOR_A_RANGE1;Green Saturated !TP_LABCURVE_CURVEEDITOR_A_RANGE2;Green Pastel !TP_LABCURVE_CURVEEDITOR_A_RANGE3;Red Pastel !TP_LABCURVE_CURVEEDITOR_A_RANGE4;Red Saturated !TP_LABCURVE_CURVEEDITOR_B_RANGE1;Blue Saturated !TP_LABCURVE_CURVEEDITOR_B_RANGE2;Blue Pastel !TP_LABCURVE_CURVEEDITOR_B_RANGE3;Yellow Pastel !TP_LABCURVE_CURVEEDITOR_B_RANGE4;Yellow Saturated !TP_LABCURVE_CURVEEDITOR_CC;CC !TP_LABCURVE_CURVEEDITOR_CC_RANGE1;Neutral !TP_LABCURVE_CURVEEDITOR_CC_RANGE2;Dull !TP_LABCURVE_CURVEEDITOR_CC_RANGE3;Pastel !TP_LABCURVE_CURVEEDITOR_CC_RANGE4;Saturated !TP_LOCALLAB_ACTIV;Luminance only !TP_LOCALLAB_ACTIVSPOT;Enable Spot !TP_LOCALLAB_ADJ;Equalizer Color !TP_LOCALLAB_ALL;All rubrics !TP_LOCALLAB_AMOUNT;Amount !TP_LOCALLAB_ARTIF;Shape detection !TP_LOCALLAB_ARTIF_TOOLTIP;ΔE scope threshold increases the range of deltaE scope. High values are for very wide gamut images.\nIncreasing deltaE decay can improve shape detection, but can also reduce the scope. !TP_LOCALLAB_AUTOGRAY;Auto mean luminance (Yb%) !TP_LOCALLAB_AUTOGRAYCIE;Auto !TP_LOCALLAB_AUTOGRAYCIE_TOOLTIP;Automatically calculates the “Mean luminance” and “Absolute luminance”.\nFor Jz Cz Hz: automatically calculates "PU adaptation", "Black Ev" and "White Ev". !TP_LOCALLAB_AVOID;Avoid color shift !TP_LOCALLAB_AVOIDCOLORSHIFT_TOOLTIP;Fit colors into gamut of the working color space and apply Munsell correction (Uniform Perceptual Lab).\nMunsell correction always disabled when Jz or CAM16 is used. !TP_LOCALLAB_AVOIDMUN;Munsell correction only !TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used !TP_LOCALLAB_AVOIDRAD;Soft radius !TP_LOCALLAB_BALAN;ab-L balance (ΔE) !TP_LOCALLAB_BALANEXP;Laplacian balance !TP_LOCALLAB_BALANH;C-H balance (ΔE) !TP_LOCALLAB_BALAN_TOOLTIP;Changes the ΔE algorithm parameters.\nTakes into account more or less a*b* or L*, or more or less C or H.\nNot for Denoise !TP_LOCALLAB_BASELOG;Shadows range (logarithm base) !TP_LOCALLAB_BILATERAL;Bilateral filter !TP_LOCALLAB_BLACK_EV;Black Ev !TP_LOCALLAB_BLCO;Chrominance only !TP_LOCALLAB_BLENDMASKCOL;Blend !TP_LOCALLAB_BLENDMASKMASK;Add/subtract luma mask !TP_LOCALLAB_BLENDMASKMASKAB;Add/subtract chroma mask !TP_LOCALLAB_BLENDMASKMASK_TOOLTIP;If this slider = 0 no action.\nAdd or subtract the mask from the original image !TP_LOCALLAB_BLENDMASK_TOOLTIP;If blend = 0 only shape detection is improved.\nIf blend > 0 the mask is added to the image. If blend < 0 the mask is subtracted from the image !TP_LOCALLAB_BLGUID;Guided Filter !TP_LOCALLAB_BLINV;Inverse !TP_LOCALLAB_BLLC;Luminance & Chrominance !TP_LOCALLAB_BLLO;Luminance only !TP_LOCALLAB_BLMED;Median !TP_LOCALLAB_BLMETHOD_TOOLTIP;Normal: direct blur and noise with all settings.\nInverse: blur and noise with all settings. Warning, some settings may give curious results. !TP_LOCALLAB_BLNOI_EXP;Blur & Noise !TP_LOCALLAB_BLNORM;Normal !TP_LOCALLAB_BLSYM;Symmetric !TP_LOCALLAB_BLUFR;Blur/Grain & Denoise !TP_LOCALLAB_BLUMETHOD_TOOLTIP;To blur the background and isolate the foreground:\n-blur the background by completely covering the image with an an RT-spot (high values for scope and transition and ‘Normal’ or ‘Inverse’ in checkbox).\n-Isolate the foreground by using one or more ‘Excluding’ RT-spot(s) and increase the scope.\n\nThis module (including the ‘median’ and ‘Guided filter’) can be used in addition to the main-menu noise reduction !TP_LOCALLAB_BLUR;Gaussian Blur - Noise - Grain !TP_LOCALLAB_BLURCBDL;Blur levels 0-1-2-3-4 !TP_LOCALLAB_BLURCOL;Radius !TP_LOCALLAB_BLURCOLDE_TOOLTIP;The image used to calculate dE is blurred slightly to avoid taking isolated pixels into account. !TP_LOCALLAB_BLURDE;Blur shape detection !TP_LOCALLAB_BLURLC;Luminance only !TP_LOCALLAB_BLURLEVELFRA;Blur levels !TP_LOCALLAB_BLURMASK_TOOLTIP;Uses a large-radius blur to create a mask that allows you to vary the contrast of the image and/or darken/lighten parts of it. !TP_LOCALLAB_BLURRESIDFRA;Blur Residual !TP_LOCALLAB_BLURRMASK_TOOLTIP;Allows you to vary the "radius" of the Gaussian blur (0 to 1000) !TP_LOCALLAB_BLUR_TOOLNAME;Blur/Grain & Denoise !TP_LOCALLAB_BLWH;All changes forced in Black-and-White !TP_LOCALLAB_BLWH_TOOLTIP;Force color components "a" and "b" to zero.\nUseful for black and white processing, or film simulation. !TP_LOCALLAB_BUTTON_ADD;Add !TP_LOCALLAB_BUTTON_DEL;Delete !TP_LOCALLAB_BUTTON_DUPL;Duplicate !TP_LOCALLAB_BUTTON_REN;Rename !TP_LOCALLAB_BUTTON_VIS;Show/Hide !TP_LOCALLAB_BWFORCE;Uses Black Ev & White Ev !TP_LOCALLAB_CAM16PQREMAP;HDR PQ (Peak Luminance) !TP_LOCALLAB_CAM16PQREMAP_TOOLTIP;PQ (Perceptual Quantizer) adapted to CAM16. Allows you to change the internal PQ function (usually 10000 cd/m2 - default 100 cd/m2 - disabled for 100 cd/m2).\nCan be used to adapt to different devices and images. !TP_LOCALLAB_CAM16_FRA;Cam16 Image Adjustments !TP_LOCALLAB_CAMMODE;CAM model !TP_LOCALLAB_CAMMODE_ALL;CAM 16 + Jz Cz Hz !TP_LOCALLAB_CAMMODE_CAM16;CAM 16 !TP_LOCALLAB_CAMMODE_JZ;Jz Cz Hz !TP_LOCALLAB_CAMMODE_ZCAM;ZCAM only !TP_LOCALLAB_CATAD;Chromatic adaptation/Cat16 !TP_LOCALLAB_CBDL;Contrast by Detail Levels !TP_LOCALLAB_CBDLCLARI_TOOLTIP;Enhances local contrast of the midtones. !TP_LOCALLAB_CBDL_ADJ_TOOLTIP;Same as wavelets.\nThe first level (0) acts on 2x2 pixel details.\nThe last level (5) acts on 64x64 pixel details. !TP_LOCALLAB_CBDL_THRES_TOOLTIP;Prevents the sharpening of noise !TP_LOCALLAB_CBDL_TOOLNAME;Contrast by Detail Levels !TP_LOCALLAB_CENTER_X;Center X !TP_LOCALLAB_CENTER_Y;Center Y !TP_LOCALLAB_CH;CL - LC !TP_LOCALLAB_CHROMA;Chrominance !TP_LOCALLAB_CHROMABLU;Chroma levels !TP_LOCALLAB_CHROMABLU_TOOLTIP;Increases or reduces the effect depending on the luma settings.\nValues under 1 reduce the effect. Values greater than 1 increase the effect. !TP_LOCALLAB_CHROMACBDL;Chroma !TP_LOCALLAB_CHROMACB_TOOLTIP;Increases or reduces the effect depending on the luma settings.\nValues under 1 reduce the effect. Values greater than 1 increase the effect. !TP_LOCALLAB_CHROMALEV;Chroma levels !TP_LOCALLAB_CHROMASKCOL;Chroma !TP_LOCALLAB_CHROMASK_TOOLTIP;Changes the chroma of the mask if one exists (i.e. C(C) or LC(H) is activated). !TP_LOCALLAB_CHROML;Chroma (C) !TP_LOCALLAB_CHRRT;Chroma !TP_LOCALLAB_CIE;Color appearance (Cam16 & JzCzHz) !TP_LOCALLAB_CIEC;Use Ciecam environment parameters !TP_LOCALLAB_CIECAMLOG_TOOLTIP;This module is based on the CIECAM color appearance model which was designed to better simulate how human vision perceives colors under different lighting conditions.\nThe first Ciecam process 'Scene conditions' is carried out by Log encoding, it also uses 'Absolute luminance' at the time of shooting.\nThe second Ciecam process 'Image adjustments' is simplified and uses only 3 variables (local contrast, contrast J, saturation s).\nThe third Ciecam process 'Viewing conditions' adapts the output to the intended viewing conditions (monitor, TV, projector, printer, etc.) so that the chromatic and contrast appearance is preserved across the display environment. !TP_LOCALLAB_CIECOLORFRA;Color !TP_LOCALLAB_CIECONTFRA;Contrast !TP_LOCALLAB_CIELIGHTCONTFRA;Lighting & Contrast !TP_LOCALLAB_CIELIGHTFRA;Lighting !TP_LOCALLAB_CIEMODE;Change tool position !TP_LOCALLAB_CIEMODE_COM;Default !TP_LOCALLAB_CIEMODE_DR;Dynamic Range !TP_LOCALLAB_CIEMODE_LOG;Log Encoding !TP_LOCALLAB_CIEMODE_TM;Tone-Mapping !TP_LOCALLAB_CIEMODE_TOOLTIP;In Default mode, Ciecam is added at the end of the process. "Mask and modifications" and "Recovery based on luminance mask" are available for"Cam16 and JzCzHz" at your disposal .\nYou can also integrate Ciecam into other tools if you wish (TM, Wavelet, Dynamic Range, Log Encoding). The results for these tools will be different to those without Ciecam. In this mode, you can also use "Mask and modifications" and "Recovery based on luminance mask" !TP_LOCALLAB_CIEMODE_WAV;Wavelet !TP_LOCALLAB_CIETOOLEXP;Curves !TP_LOCALLAB_CIE_TOOLNAME;Color appearance (Cam16 & JzCzHz) !TP_LOCALLAB_CIRCRADIUS;Spot size !TP_LOCALLAB_CIRCRAD_TOOLTIP;Contains the references of the RT-spot, useful for shape detection (hue, luma, chroma, Sobel).\nLow values may be useful for processing foliage.\nHigh values may be useful for processing skin. !TP_LOCALLAB_CLARICRES;Merge chroma !TP_LOCALLAB_CLARIFRA;Clarity & Sharp mask/Blend & Soften Images !TP_LOCALLAB_CLARIJZ_TOOLTIP;Levels 0 to 4 (included): ‘Sharp mask’ is enabled\nLevels 5 and above: 'Clarity' is enabled. !TP_LOCALLAB_CLARILRES;Merge luma !TP_LOCALLAB_CLARISOFT;Soft radius !TP_LOCALLAB_CLARISOFTJZ_TOOLTIP;The ‘Soft radius’ slider (guided filter algorithm) reduces halos and irregularities for Clarity, Sharp Mask and Local contrast wavelets Jz. !TP_LOCALLAB_CLARISOFT_TOOLTIP;The ‘Soft radius’ slider (guided filter algorithm) reduces halos and irregularities for Clarity, Sharp Mask and all wavelet pyramid processes. To deactivate, set slider to zero. !TP_LOCALLAB_CLARITYML;Clarity !TP_LOCALLAB_CLARI_TOOLTIP;Levels 0 to 4 (included): ‘Sharp mask’ is enabled\nLevels 5 and above: 'Clarity' is enabled.\nUseful if you use 'Wavelet level tone mapping' !TP_LOCALLAB_CLIPTM;Clip restored data (gain) !TP_LOCALLAB_COFR;Color & Light !TP_LOCALLAB_COLORDE;ΔE preview color - intensity !TP_LOCALLAB_COLORDEPREV_TOOLTIP;Preview ΔE button will only work if you have activated one (and only one) of the tools in ‘Add tool to current spot’ menu.\nTo be able to preview ΔE with several tools enabled, use Mask and modifications - Preview ΔE. !TP_LOCALLAB_COLORDE_TOOLTIP;Show a blue color preview for ΔE selection if negative and green if positive.\n\nMask and modifications (show modified areas without mask): show actual modifications if positive, show enhanced modifications (luminance only) with blue and yellow if negative. !TP_LOCALLAB_COLORSCOPE;Scope (color tools) !TP_LOCALLAB_COLORSCOPE_TOOLTIP;Common Scope slider for Color and Light, Shadows/Highlights, Vibrance.\nOther tools have their own scope controls. !TP_LOCALLAB_COLOR_CIE;Color curve !TP_LOCALLAB_COLOR_TOOLNAME;Color & Light !TP_LOCALLAB_COL_NAME;Name !TP_LOCALLAB_COL_VIS;Status !TP_LOCALLAB_COMPFRA;Directional contrast !TP_LOCALLAB_COMPFRAME_TOOLTIP;Allows you to create special effects. You can reduce artifacts with 'Clarity and Sharp mask - Blend and Soften Images’.\nUses a lot of resources. !TP_LOCALLAB_COMPLEX_METHOD;Software Complexity !TP_LOCALLAB_COMPLEX_TOOLTIP; Allow user to select Local adjustments complexity. !TP_LOCALLAB_COMPREFRA;Wavelet level tone mapping !TP_LOCALLAB_COMPRESS_TOOLTIP;If necessary, use the module 'Clarity and Sharp mask and Blend and Soften Images' by adjusting 'Soft radius' to reduce artifacts. !TP_LOCALLAB_CONTCOL;Contrast threshold !TP_LOCALLAB_CONTFRA;Contrast by level !TP_LOCALLAB_CONTL;Contrast (J) !TP_LOCALLAB_CONTRAST;Contrast !TP_LOCALLAB_CONTRASTCURVMASK1_TOOLTIP;Allows you to freely modify the contrast of the mask (gamma and slope), instead of using a continuous and progressive curve. However it can create artifacts that have to be dealt with using the ‘Smooth radius’ or ‘Laplacian threshold sliders’. !TP_LOCALLAB_CONTRASTCURVMASK_TOOLTIP;Allows you to freely change the contrast of the mask.\n Has a similar function to the Gamma and Slope sliders.\n It allows you to target certain parts of the image (usually the lightest parts of the mask by using the curve to exclude the darker parts).May create artifacts. !TP_LOCALLAB_CONTRESID;Contrast !TP_LOCALLAB_CONTTHMASK_TOOLTIP;Allows you to determine which parts of the image will be impacted based on the texture. !TP_LOCALLAB_CONTTHR;Contrast Threshold !TP_LOCALLAB_CONTWFRA;Local contrast !TP_LOCALLAB_CSTHRESHOLD;Wavelet levels !TP_LOCALLAB_CSTHRESHOLDBLUR;Wavelet level selection !TP_LOCALLAB_CURV;Lightness - Contrast - Chrominance "Super" !TP_LOCALLAB_CURVCURR;Normal !TP_LOCALLAB_CURVEEDITORM_CC_TOOLTIP;If the curves are at the top, the mask is completely black and no changes are made to the image.\nAs you lower the curve, the mask gradually becomes more colorful and bright, progressively changing the image.\n\nIt is recommended (but not mandatory) to position the top of the curves on the gray boundary line which represents the reference values of chroma, luma, hue for the RT-spot. !TP_LOCALLAB_CURVEEDITOR_CC_TOOLTIP;If curves are at the top, the mask is completely black and no changes are made to the image.\nAs you lower the curve, the mask gradually becomes more colorful and bright, progressively changing the image.\n\nIt is recommended (but not mandatory) to position the top of the curves on the gray boundary line which represents the reference values of chroma, luma, hue for the RT-spot. !TP_LOCALLAB_CURVEEDITOR_LL_TOOLTIP;To activate the curves, set the ‘Curve type’ combobox to ‘Normal’ !TP_LOCALLAB_CURVEEDITOR_TONES_LABEL;Tone curve !TP_LOCALLAB_CURVEEDITOR_TONES_TOOLTIP;L=f(L), can be used with L(H) in Color and Light !TP_LOCALLAB_CURVEMETHOD_TOOLTIP;'Normal', the curve L=f(L) uses the same algorithm as the lightness slider. !TP_LOCALLAB_CURVENCONTRAST;Super+Contrast threshold (experimental) !TP_LOCALLAB_CURVENH;Super !TP_LOCALLAB_CURVENHSU;Combined HueChroma (experimental) !TP_LOCALLAB_CURVENSOB2;Combined HueChroma + Contrast threshold (experimental) !TP_LOCALLAB_CURVES_CIE;Tone curve !TP_LOCALLAB_CURVNONE;Disable curves !TP_LOCALLAB_DARKRETI;Darkness !TP_LOCALLAB_DEHAFRA;Dehaze !TP_LOCALLAB_DEHAZ;Strength !TP_LOCALLAB_DEHAZFRAME_TOOLTIP;Removes atmospheric haze. Increases overall saturation and detail.\nCan remove color casts, but may also introduce a blue cast which can be corrected with other tools. !TP_LOCALLAB_DEHAZ_TOOLTIP;Negative values add haze !TP_LOCALLAB_DELTAD;Delta balance !TP_LOCALLAB_DELTAEC;ΔE Image mask !TP_LOCALLAB_DENOI1_EXP;Denoise based on luminance mask !TP_LOCALLAB_DENOI2_EXP;Recovery based on luminance mask !TP_LOCALLAB_DENOIBILAT_TOOLTIP;Allows you to reduce impulse or ‘salt & pepper’ noise. !TP_LOCALLAB_DENOICHROC_TOOLTIP;Allows you to deal with blotches and packets of noise. !TP_LOCALLAB_DENOICHRODET_TOOLTIP;Allows you to recover chrominance detail by progressively applying a Fourier transform (DCT). !TP_LOCALLAB_DENOICHROF_TOOLTIP;Allows you to adjust fine-detail chrominance noise !TP_LOCALLAB_DENOIEQUALCHRO_TOOLTIP;Allows you to direct the chroma noise reduction towards either the blue-yellow or red-green colors. !TP_LOCALLAB_DENOIEQUAL_TOOLTIP;Allows you to carry out more or less noise reduction in either the shadows or the highlights. !TP_LOCALLAB_DENOILUMDETAIL_TOOLTIP;Allows you to recover luminance detail by progressively applying a Fourier transform (DCT). !TP_LOCALLAB_DENOIMASK;Denoise chroma mask !TP_LOCALLAB_DENOIMASK_TOOLTIP;For all tools, allows you to control the chromatic noise level of the mask.\nUseful for better control of chrominance and to avoid artifacts when using the LC(h) curve. !TP_LOCALLAB_DENOIQUA_TOOLTIP;Conservative mode preserves low frequency detail. Aggressive mode removes low frequency detail.\nConservative and Aggressive modes use wavelets and DCT and can be used in conjunction with ‘Non-local Means – Luminance’. !TP_LOCALLAB_DENOIS;Denoise !TP_LOCALLAB_DENOITHR_TOOLTIP;Adjusts edge detection to help reduce noise in uniform, low-contrast areas. !TP_LOCALLAB_DENOI_EXP;Denoise !TP_LOCALLAB_DENOI_TOOLTIP;This module can be used for noise reduction either on its own (at the end of the processing pipeline) or in addition to the Noise Reduction module in the Detail tab (which works at the beginning of the pipeline).\n Scope allows you to differentiate the action based on color (deltaE).\nMinimum RT-spot size: 128x128 !TP_LOCALLAB_DEPTH;Depth !TP_LOCALLAB_DETAIL;Local contrast !TP_LOCALLAB_DETAILFRA;Edge detection - DCT !TP_LOCALLAB_DETAILSH;Details !TP_LOCALLAB_DETAILTHR;Luma-chro detail threshold !TP_LOCALLAB_DIVGR;Gamma !TP_LOCALLAB_DUPLSPOTNAME;Copy !TP_LOCALLAB_EDGFRA;Edge sharpness !TP_LOCALLAB_EDGSHOW;Show all tools !TP_LOCALLAB_ELI;Ellipse !TP_LOCALLAB_ENABLE_AFTER_MASK;Use Tone Mapping !TP_LOCALLAB_ENABLE_MASK;Enable mask !TP_LOCALLAB_ENABLE_MASKAFT;Use all algorithms Exposure !TP_LOCALLAB_ENARETIMASKTMAP_TOOLTIP;If enabled the Mask uses Restored Data after Transmission Map instead of Original data. !TP_LOCALLAB_ENH;Enhanced !TP_LOCALLAB_ENHDEN;Enhanced + chroma denoise !TP_LOCALLAB_EPSBL;Detail !TP_LOCALLAB_EQUIL;Normalize luminance !TP_LOCALLAB_EQUILTM_TOOLTIP;Reconstruct luminance so that the mean and variance of the output image are identical to those of the original. !TP_LOCALLAB_ESTOP;Edge stopping !TP_LOCALLAB_EV_DUPL;Copy of !TP_LOCALLAB_EV_NVIS;Hide !TP_LOCALLAB_EV_NVIS_ALL;Hide all !TP_LOCALLAB_EV_VIS;Show !TP_LOCALLAB_EV_VIS_ALL;Show all !TP_LOCALLAB_EXCLUF;Excluding !TP_LOCALLAB_EXCLUF_TOOLTIP;‘Excluding’ mode prevents adjacent spots from influencing certain parts of the image. Adjusting ‘Scope’ will extend the range of colors.\n You can also add tools to an Excluding spot and use them in the same way as for a normal spot. !TP_LOCALLAB_EXCLUTYPE;Spot method !TP_LOCALLAB_EXCLUTYPE_TOOLTIP;Normal spot uses recursive data.\n\nExcluding spot reinitializes all local adjustment data.\nCan be used to totally or partially cancel a previous action or to carry out operations in Inverse mode.\n\n‘Full image’ allows you to use the local adjustment tools on the whole image.\n The RT Spot delimiters are set beyond the image preview boundaries.\n The transition is set to 100.\nNote, you may have to reposition the RT Spot slightly and adjust the Spot size to get the desired effect.\nPlease note: using Denoise or Wavelet or FFTW in full-image mode uses large amounts of memory and may cause the application to crash on lower capacity systems. !TP_LOCALLAB_EXECLU;Excluding spot !TP_LOCALLAB_EXFULL;Full image !TP_LOCALLAB_EXNORM;Normal spot !TP_LOCALLAB_EXPCBDL_TOOLTIP;Can be used to remove marks on the sensor or lens by reducing the contrast on the appropriate detail level(s). !TP_LOCALLAB_EXPCHROMA;Chroma compensation !TP_LOCALLAB_EXPCHROMA_TOOLTIP;Use in association with ‘Exposure compensation f’ and ‘Contrast Attenuator f’ to avoid desaturating colors. !TP_LOCALLAB_EXPCOLOR_TOOLTIP;Adjust color, lightness, contrast and correct small defects such as red-eye, sensor dust etc. !TP_LOCALLAB_EXPCOMP;Exposure compensation ƒ !TP_LOCALLAB_EXPCOMPINV;Exposure compensation !TP_LOCALLAB_EXPCOMP_TOOLTIP;For portraits or images with a low color gradient. You can change ‘Shape detection’ in "Settings":\n\nIncrease 'ΔE scope threshold'\nReduce 'ΔE decay'\nIncrease 'ab-L balance (ΔE)’ !TP_LOCALLAB_EXPCONTRASTPYR_TOOLTIP;See the documentation for Wavelet Levels.\nThere are some differences in the Local Adjustments version, which has more tools and more possibilities for working on individual detail levels.\ne.g. Wavelet-level tone mapping. !TP_LOCALLAB_EXPCONTRAST_TOOLTIP;Avoid spots that are too small ( < 32x32 pixels).\nUse low ‘Transition value’ and high ‘Transition decay’ and ‘Scope’ to simulate small RT-spots and deal with defects.\nUse 'Clarity and Sharp mask and Blend and Soften Images' if necessary by adjusting 'Soft radius' to reduce artifacts. !TP_LOCALLAB_EXPCURV;Curves !TP_LOCALLAB_EXPGRAD;Graduated Filter !TP_LOCALLAB_EXPGRADCOL_TOOLTIP;A graduated filter is available in Color and Light (luminance, chrominance & hue gradients, and "Merge file") Exposure (luminance grad.), Exposure Mask (luminance grad.), Shadows/Highlights (luminance grad.), Vibrance (luminance, chrominance & hue gradients), Local contrast & wavelet pyramid (local contrast grad.).\nFeather is located in Settings. !TP_LOCALLAB_EXPLAPBAL_TOOLTIP;Changes the transformed/original image blend !TP_LOCALLAB_EXPLAPGAMM_TOOLTIP;Changes the behaviour for images with too much or too little contrast by adding a gamma curve before and after the Laplace transform !TP_LOCALLAB_EXPLAPLIN_TOOLTIP;Changes the behaviour for underexposed images by adding a linear component prior to applying the Laplace transform !TP_LOCALLAB_EXPLAP_TOOLTIP;Moving the slider to the right progressively reduces the contrast. !TP_LOCALLAB_EXPMERGEFILE_TOOLTIP;Allows you to use GIMP or Photoshop (c) layer blend modes i.e. Difference, Multiply, Soft Light, Overlay etc., with opacity control.\nOriginal Image : merge current RT-Spot with Original.\nPrevious spot : merge current Rt-Spot with previous - if there is only one spot, previous = original.\nBackground : merge current RT-Spot with a color and luminance background (fewer possibilties). !TP_LOCALLAB_EXPMETHOD_TOOLTIP;Standard : use an algorithm similar as main Exposure but in L*a*b* and taking account of deltaE.\n\nContrast attenuator : use another algorithm also with deltaE and with Poisson equation to solve Laplacian in Fourier space.\nContrast attenuator, Dynamic range compression and Standard can be combined.\nFFTW Fourier Transform is optimized in size to reduce processing time.\nReduce artifacts and noise. !TP_LOCALLAB_EXPNOISEMETHOD_TOOLTIP;Applies a median filter before the Laplace transform to prevent artifacts (noise).\nYou can also use the ‘Denoise’ tool. !TP_LOCALLAB_EXPOSE;Dynamic Range & Exposure !TP_LOCALLAB_EXPOSURE_TOOLTIP;Modify exposure in L*a*b space using Laplacian PDE algorithms to take into account dE and minimize artifacts. !TP_LOCALLAB_EXPRETITOOLS;Advanced Retinex Tools !TP_LOCALLAB_EXPSHARP_TOOLTIP;RT-Spot minimum 39*39.\nUse low transition values and high ‘Transition decay’ and ‘Scope’ values to simulate smaller RT-Spots. !TP_LOCALLAB_EXPTOOL;Exposure Tools !TP_LOCALLAB_EXPTRC;Tone Response Curve - TRC !TP_LOCALLAB_EXP_TOOLNAME;Dynamic Range & Exposure !TP_LOCALLAB_FATAMOUNT;Amount !TP_LOCALLAB_FATANCHOR;Anchor !TP_LOCALLAB_FATANCHORA;Offset !TP_LOCALLAB_FATDETAIL;Detail !TP_LOCALLAB_FATFRA;Dynamic Range Compression ƒ !TP_LOCALLAB_FATFRAME_TOOLTIP;PDE Fattal – uses the Fattal Tone-mapping algorithm. !TP_LOCALLAB_FATLEVEL;Sigma !TP_LOCALLAB_FATRES;Amount Residual Image !TP_LOCALLAB_FATSHFRA;Dynamic Range Compression Mask ƒ !TP_LOCALLAB_FEATH_TOOLTIP;Gradient width as a percentage of the Spot diagonal\nUsed by all graduated filters in all tools.\nNo action if a graduated filter hasn’t been activated. !TP_LOCALLAB_FEATVALUE;Feather gradient (Grad. Filters) !TP_LOCALLAB_FFTCOL_MASK;FFTW ƒ !TP_LOCALLAB_FFTMASK_TOOLTIP;Use a Fourier transform for better quality (increased processing time and memory requirements) !TP_LOCALLAB_FFTW;ƒ - Use Fast Fourier Transform !TP_LOCALLAB_FFTW2;ƒ - Use Fast Fourier Transform (TIF, JPG,..) !TP_LOCALLAB_FFTWBLUR;ƒ - Always Use Fast Fourier Transform !TP_LOCALLAB_FULLIMAGE;Black-Ev and White-Ev for whole image !TP_LOCALLAB_FULLIMAGELOG_TOOLTIP;Calculates the Ev levels for the whole image. !TP_LOCALLAB_GAM;Gamma !TP_LOCALLAB_GAMC;Gamma !TP_LOCALLAB_GAMCOL_TOOLTIP;Apply a gamma on Luminance L*a*b* datas.\nIf gamma = 3.0 Luminance "linear" is used. !TP_LOCALLAB_GAMC_TOOLTIP;Apply a gamma on Luminance L*a*b* datas before and after treatment Pyramid 1 and Pyramid 2.\nIf gamma = 3.0 Luminance "linear" is used. !TP_LOCALLAB_GAMFRA;Tone response curve (TRC) !TP_LOCALLAB_GAMM;Gamma !TP_LOCALLAB_GAMMASKCOL;Gamma !TP_LOCALLAB_GAMMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying ‘L’ to avoid any discontinuities. !TP_LOCALLAB_GAMSH;Gamma !TP_LOCALLAB_GAMW;Gamma (wavelet pyramids) !TP_LOCALLAB_GRADANG;Gradient angle !TP_LOCALLAB_GRADANG_TOOLTIP;Rotation angle in degrees : -180 0 +180 !TP_LOCALLAB_GRADFRA;Graduated Filter Mask !TP_LOCALLAB_GRADGEN_TOOLTIP;Adjusts luminance gradient strength !TP_LOCALLAB_GRADLOGFRA;Graduated Filter Luminance !TP_LOCALLAB_GRADSTR;Gradient strength !TP_LOCALLAB_GRADSTRAB_TOOLTIP;Adjusts chroma gradient strength !TP_LOCALLAB_GRADSTRCHRO;Chroma gradient strength !TP_LOCALLAB_GRADSTRHUE;Hue gradient strength !TP_LOCALLAB_GRADSTRHUE2;Hue gradient strength !TP_LOCALLAB_GRADSTRHUE_TOOLTIP;Adjusts hue gradient strength !TP_LOCALLAB_GRADSTRLUM;Luma gradient strength !TP_LOCALLAB_GRADSTR_TOOLTIP;Filter strength in stops !TP_LOCALLAB_GRAINFRA;Film Grain 1:1 !TP_LOCALLAB_GRAINFRA2;Coarseness !TP_LOCALLAB_GRAIN_TOOLTIP;Adds film-like grain to the image !TP_LOCALLAB_GRALWFRA;Graduated filter (local contrast) !TP_LOCALLAB_GRIDFRAME_TOOLTIP;You can use this tool as a brush. Use a small spot and adapt the ‘Transition value’ and ‘Transition decay’\nOnly 'Normal' mode and possibly Hue, Saturation, Color, Luminosity are concerned by Merge background (ΔE) !TP_LOCALLAB_GRIDMETH_TOOLTIP;Color toning: the luminance is taken into account when varying chroma. Equivalent to H=f(H) if the "white dot" on the grid remains at zero and you only vary the "black dot". Equivalent to "Color toning" if you vary the 2 dots.\n\nDirect: acts directly on the chroma !TP_LOCALLAB_GRIDONE;Color Toning !TP_LOCALLAB_GRIDTWO;Direct !TP_LOCALLAB_GUIDBL;Soft radius !TP_LOCALLAB_GUIDBL_TOOLTIP;Applies a guided filter with adjustable radius. Allows you to reduce artifacts or blur the image. !TP_LOCALLAB_GUIDEPSBL_TOOLTIP;Changes the distribution function of the guided filter. Negative values simulate a Gaussian blur. !TP_LOCALLAB_GUIDFILTER;Guided filter radius !TP_LOCALLAB_GUIDFILTER_TOOLTIP;Can reduce or increase artifacts. !TP_LOCALLAB_GUIDSTRBL_TOOLTIP;Intensity of the guided filter !TP_LOCALLAB_HHMASK_TOOLTIP;Fine hue adjustments for example for the skin. !TP_LOCALLAB_HIGHMASKCOL;Highlights !TP_LOCALLAB_HLH;H !TP_LOCALLAB_HLHZ;Hz !TP_LOCALLAB_HUECIE;Hue !TP_LOCALLAB_IND;Independent (mouse) !TP_LOCALLAB_INDSL;Independent (mouse + sliders) !TP_LOCALLAB_INVBL;Inverse !TP_LOCALLAB_INVBL_TOOLTIP;Alternative to ‘Inverse’ mode: use two spots\nFirst Spot:\n Full Image\n\nSecond spot : Excluding spot !TP_LOCALLAB_INVERS;Inverse !TP_LOCALLAB_INVERS_TOOLTIP;Fewer possibilities if selected (Inverse).\n\nAlternative: use two spots\nFirst Spot:\n Full Image\n \nSecond spot: Excluding spot !TP_LOCALLAB_INVMASK;Inverse algorithm !TP_LOCALLAB_ISOGR;Distribution (ISO) !TP_LOCALLAB_JAB;Uses Black Ev & White Ev !TP_LOCALLAB_JABADAP_TOOLTIP;Perceptual Uniform adaptation.\nAutomatically adjusts the relationship between Jz and saturation taking into account "Absolute luminance". !TP_LOCALLAB_JZ100;Jz reference 100cd/m2 !TP_LOCALLAB_JZ100_TOOLTIP;Automatically adjusts the reference Jz 100 cd/m2 level (image signal).\nChanges the saturation level and action of “PU adaptation” (Perceptual Uniform adaptation). !TP_LOCALLAB_JZADAP;PU adaptation !TP_LOCALLAB_JZCH;Chroma !TP_LOCALLAB_JZCHROM;Chroma !TP_LOCALLAB_JZCLARICRES;Merge chroma Cz !TP_LOCALLAB_JZCLARILRES;Merge Jz !TP_LOCALLAB_JZCONT;Contrast !TP_LOCALLAB_JZFORCE;Force max Jz to 1 !TP_LOCALLAB_JZFORCE_TOOLTIP;Allows you to force the maximum Jz value to 1 for better slider and curve response !TP_LOCALLAB_JZFRA;Jz Cz Hz Image Adjustments !TP_LOCALLAB_JZHFRA;Curves Hz !TP_LOCALLAB_JZHJZFRA;Curve Jz(Hz) !TP_LOCALLAB_JZHUECIE;Hue Rotation !TP_LOCALLAB_JZLIGHT;Brightness !TP_LOCALLAB_JZLOG;Log encoding Jz !TP_LOCALLAB_JZLOGWBS_TOOLTIP;Black Ev and White Ev adjustments can be different depending on whether Log encoding or Sigmoid is used.\nFor Sigmoid, a change (increase in most cases) of White Ev may be necessary to obtain a better rendering of highlights, contrast and saturation. !TP_LOCALLAB_JZLOGWB_TOOLTIP;If Auto is enabled, it will calculate and adjust the Ev levels and the 'Mean luminance Yb%' for the spot area. The resulting values will be used by all Jz operations including "Log Encoding Jz".\nAlso calculates the absolute luminance at the time of shooting. !TP_LOCALLAB_JZLOGYBOUT_TOOLTIP;Yb is the relative luminance of the background, expressed as a percentage of gray. 18% gray corresponds to a background luminance of 50% when expressed in CIE L.\nThe data is based on the mean luminance of the image.\nWhen used with Log Encoding, the mean luminance is used to determine the amount of gain that needs to be applied to the signal prior to the log encoding. Lower values of mean luminance will result in increased gain. !TP_LOCALLAB_JZMODECAM_TOOLTIP;Jz (only in 'Advanced' mode). Only operational if the output device (monitor) is HDR (peak luminance higher than 100 cd/m2 - ideally between 4000 and 10000 cd/m2. Black point luminance inferior to 0.005 cd/m2). This supposes a) the ICC-PCS for the screen uses Jzazbz (or XYZ), b) works in real precision, c) that the monitor is calibrated (if possible with a DCI-P3 or Rec-2020 gamut), d) that the usual gamma (sRGB or BT709) is replaced by a Perceptual Quantiser (PQ) function. !TP_LOCALLAB_JZPQFRA;Jz remapping !TP_LOCALLAB_JZPQFRA_TOOLTIP;Allows you to adapt the Jz algorithm to an SDR environment or to the characteristics (performance) of an HDR environment as follows:\n a) for luminance values between 0 and 100 cd/m2, the system behaves as if it were in an SDR environment.\n b) for luminance values between 100 and 10000 cd/m2, you can adapt the algorithm to the HDR characteristics of the image and the monitor.\n\nIf “PQ - Peak luminance” is set to 10000, “Jz remappping” behaves in the same way as the original Jzazbz algorithm. !TP_LOCALLAB_JZPQREMAP;PQ - Peak luminance !TP_LOCALLAB_JZPQREMAP_TOOLTIP;PQ (Perceptual Quantizer) - allows you to change the internal PQ function (usually 10000 cd/m2 - default 120 cd/m2).\nCan be used to adapt to different images, processes and devices. !TP_LOCALLAB_JZQTOJ;Relative luminance !TP_LOCALLAB_JZQTOJ_TOOLTIP;Allows you to use "Relative luminance" instead of "Absolute luminance" - Brightness becomes Lightness.\nThe changes affect: the Brightness slider, the Contrast slider and the Jz(Jz) curve. !TP_LOCALLAB_JZSAT;Saturation !TP_LOCALLAB_JZSHFRA;Shadows/Highlights Jz !TP_LOCALLAB_JZSOFTCIE;Soft radius (GuidedFilter) !TP_LOCALLAB_JZSTRSOFTCIE;Strength GuidedFilter !TP_LOCALLAB_JZTARGET_EV;Viewing Mean luminance (Yb%) !TP_LOCALLAB_JZTHRHCIE;Threshold Chroma for Jz(Hz) !TP_LOCALLAB_JZWAVEXP;Wavelet Jz !TP_LOCALLAB_LABBLURM;Blur Mask !TP_LOCALLAB_LABEL;Local Adjustments !TP_LOCALLAB_LABGRID;Color correction grid !TP_LOCALLAB_LABGRIDMERG;Background !TP_LOCALLAB_LABGRID_VALUES;High(a)=%1 High(b)=%2\nLow(a)=%3 Low(b)=%4 !TP_LOCALLAB_LABSTRUM;Structure Mask !TP_LOCALLAB_LAPLACC;ΔØ Mask Laplacian solve PDE !TP_LOCALLAB_LAPLACE;Laplacian threshold ΔE !TP_LOCALLAB_LAPLACEXP;Laplacian threshold !TP_LOCALLAB_LAPMASKCOL;Laplacian threshold !TP_LOCALLAB_LAPRAD1_TOOLTIP;Increases the contrast of the mask by increasing the luminance values of the lighter areas. Can be used in conjunction with the L(L) and LC(H) curves. !TP_LOCALLAB_LAPRAD2_TOOLTIP;Smooth radius uses a guided filter to decrease artifacts and smooth out the transition. !TP_LOCALLAB_LAPRAD_TOOLTIP;Smooth radius uses a guided filter to decrease artifacts and smooth out the transition. !TP_LOCALLAB_LAP_MASK_TOOLTIP;Solves PDEs for all Laplacian masks.\nIf enabled the Laplacian threshold mask reduces artifacts and smooths the result.\nIf disabled the response is linear. !TP_LOCALLAB_LC_FFTW_TOOLTIP;FFT improves quality and allows the use of large radii, but increases processing time (depends on the area to be processed). Preferable to use only for large radii. The size of the area can be reduced by a few pixels to optimize the FFTW. This can reduce the processing time by a factor of 1.5 to 10. !TP_LOCALLAB_LC_TOOLNAME;Local Contrast & Wavelets !TP_LOCALLAB_LEVELBLUR;Maximum blur levels !TP_LOCALLAB_LEVELWAV;Wavelet levels !TP_LOCALLAB_LEVELWAV_TOOLTIP;The Level is automatically adapted to the size of the spot and the preview.\nFrom level 9 size max 512 to level 1 size max = 4 !TP_LOCALLAB_LEVFRA;Levels !TP_LOCALLAB_LIGHTNESS;Lightness !TP_LOCALLAB_LIGHTN_TOOLTIP;In inverse mode: selection = -100 forces luminance to zero !TP_LOCALLAB_LIGHTRETI;Lightness !TP_LOCALLAB_LINEAR;Linearity !TP_LOCALLAB_LIST_NAME;Add tool to current spot... !TP_LOCALLAB_LIST_TOOLTIP;You can select 3 levels of complexity for each tool: Basic, Standard and Advanced.\nThe default setting for all tools is Basic but this can be changed in the Preferences window.\nYou can also change the level of complexity on a per-tool basis while you are editing !TP_LOCALLAB_LMASK_LEVEL_TOOLTIP;Allows you to decrease or increase the effect on particular levels of detail in the mask by targeting certain luminance zones (in general the lightest). !TP_LOCALLAB_LMASK_LL_TOOLTIP;Allows you to freely change the contrast of the mask.\n Has a similar function to the Gamma and Slope sliders.\n It allows you to target certain parts of the image (usually the lightest parts of the mask by using the curve to exclude the darker parts). May create artifacts. !TP_LOCALLAB_LOCCONT;Unsharp Mask !TP_LOCALLAB_LOC_CONTRAST;Local Contrast & Wavelets !TP_LOCALLAB_LOC_CONTRASTPYR;Pyramid 1: !TP_LOCALLAB_LOC_CONTRASTPYR2;Pyramid 2: !TP_LOCALLAB_LOC_CONTRASTPYR2LAB; Contrast by level/TM/Directional contrast !TP_LOCALLAB_LOC_CONTRASTPYRLAB; Graduated Filter/Edge Sharpness/Blur !TP_LOCALLAB_LOC_RESIDPYR;Residual image (Main) !TP_LOCALLAB_LOG;Log Encoding !TP_LOCALLAB_LOG1FRA;CAM16 Image Adjustments !TP_LOCALLAB_LOG2FRA;Viewing Conditions !TP_LOCALLAB_LOGAUTO;Automatic !TP_LOCALLAB_LOGAUTOGRAY_TOOLTIP;Automatically calculates the 'Mean luminance' for the scene conditions when the ‘Automatic’ button in Relative Exposure Levels is pressed. !TP_LOCALLAB_LOGAUTO_TOOLTIP;Pressing this button will calculate the dynamic range and 'Mean luminance' for the scene conditions if the "Auto mean luminance (Yb%)” is checked).\nAlso calculates the absolute luminance at the time of shooting.\nPress the button again to adjust the automatically calculated values. !TP_LOCALLAB_LOGBASE_TOOLTIP;Default = 2.\nValues less than 2 reduce the action of the algorithm making the shadows darker and the highlights brighter.\nWith values greater than 2, the shadows are grayer and the highlights become more washed out. !TP_LOCALLAB_LOGBLACKWHEV_TOOLTIP;Estimated values of dynamic range i.e. Black Ev and White Ev !TP_LOCALLAB_LOGCATAD_TOOLTIP;Chromatic adaptation allows us to interpret a color according to its spatio-temporal environment.\nUseful when the white balance deviates significantly from the D50 reference.\nAdapts colors to the illuminant of the output device. !TP_LOCALLAB_LOGCIE;Log encoding instead of Sigmoid !TP_LOCALLAB_LOGCIE_TOOLTIP;Allows you tu use Black Ev, White Ev, Scene Mean luminance(Yb%) and Viewing Mean luminance(Yb%) for tone-mapping using Log encoding Q. !TP_LOCALLAB_LOGCOLORFL;Colorfulness (M) !TP_LOCALLAB_LOGCOLORF_TOOLTIP;Perceived amount of hue in relation to gray.\nIndicator that a stimulus appears more or less colored. !TP_LOCALLAB_LOGCONQL;Contrast (Q) !TP_LOCALLAB_LOGCONTHRES;Contrast threshold (J & Q) !TP_LOCALLAB_LOGCONTL;Contrast (J) !TP_LOCALLAB_LOGCONTL_TOOLTIP;Contrast (J) in CIECAM16 takes into account the increase in perceived coloration with luminance. !TP_LOCALLAB_LOGCONTQ_TOOLTIP;Contrast (Q) in CIECAM16 takes into account the increase in perceived coloration with brightness. !TP_LOCALLAB_LOGCONTTHRES_TOOLTIP;Adjusts the mid-tone contrast range (J & Q).\nPositive values progressively reduce the effect of the Contrast sliders (J & Q). Negative values progressively increase the effect of the Contrast sliders. !TP_LOCALLAB_LOGDETAIL_TOOLTIP;Acts mainly on high frequencies. !TP_LOCALLAB_LOGENCOD_TOOLTIP;Tone Mapping with Logarithmic encoding (ACES).\nUseful for underexposed images or images with high dynamic range.\n\nTwo-step process: 1) Dynamic Range calculation 2) Manual adjustment !TP_LOCALLAB_LOGEXP;All tools !TP_LOCALLAB_LOGFRA;Scene Conditions !TP_LOCALLAB_LOGFRAME_TOOLTIP;Allows you to calculate and adjust the Ev levels and the 'Mean luminance Yb%' (source gray point) for the spot area. The resulting values will be used by all Lab operations and most RGB operations in the pipeline.\nAlso calculates the absolute luminance at the time of shooting. !TP_LOCALLAB_LOGIMAGE_TOOLTIP;Takes into account corresponding Ciecam variables: i.e. Contrast (J) and Saturation (s), as well as Contrast (Q), Brightness (Q), Lightness (J) and Colorfulness (M) (in Advanced mode) !TP_LOCALLAB_LOGLIGHTL;Lightness (J) !TP_LOCALLAB_LOGLIGHTL_TOOLTIP;Close to lightness (L*a*b*). Takes into account the increase in perceived coloration. !TP_LOCALLAB_LOGLIGHTQ;Brightness (Q) !TP_LOCALLAB_LOGLIGHTQ_TOOLTIP;Perceived amount of light emanating from a stimulus.\nIndicator that a stimulus appears to be more or less bright, clear. !TP_LOCALLAB_LOGLIN;Logarithm mode !TP_LOCALLAB_LOGPFRA;Relative Exposure Levels !TP_LOCALLAB_LOGREPART;Overall strength !TP_LOCALLAB_LOGREPART_TOOLTIP;Allows you to adjust the relative strength of the log-encoded image with respect to the original image.\nDoes not affect the Ciecam component. !TP_LOCALLAB_LOGSATURL_TOOLTIP;Saturation (s) in CIECAM16 corresponds to the color of a stimulus in relation to its own brightness.\nActs mainly on medium tones and on the highlights. !TP_LOCALLAB_LOGSCENE_TOOLTIP;Corresponds to the shooting conditions. !TP_LOCALLAB_LOGSRCGREY_TOOLTIP;Estimated gray point value of the image. !TP_LOCALLAB_LOGSURSOUR_TOOLTIP;Changes tones and colors to take into account the Scene conditions.\n\nAverage: Average light conditions (standard). The image will not change.\n\nDim: Dim conditions. The image will become slightly brighter.\n\nDark: Dark conditions. The image will become more bright. !TP_LOCALLAB_LOGTARGGREY_TOOLTIP;You can adjust this value to suit. !TP_LOCALLAB_LOGVIEWING_TOOLTIP;Corresponds to the medium on which the final image will be viewed (monitor, TV, projector, printer, etc.), as well as the surrounding conditions.. !TP_LOCALLAB_LOG_TOOLNAME;Log Encoding !TP_LOCALLAB_LUM;LL - CC !TP_LOCALLAB_LUMADARKEST;Darkest !TP_LOCALLAB_LUMASK;Background color/luma mask !TP_LOCALLAB_LUMASK_TOOLTIP;Adjusts the shade of gray or color of the mask background in Show Mask (Mask and modifications) !TP_LOCALLAB_LUMAWHITESEST;Lightest !TP_LOCALLAB_LUMFRA;L*a*b* standard !TP_LOCALLAB_LUMONLY;Luminance only !TP_LOCALLAB_MASFRAME;Mask and Merge !TP_LOCALLAB_MASFRAME_TOOLTIP;For all masks.\nTakes into account the deltaE image to avoid modifying the selection area when the following Mask Tools are used: Gamma, Slope, Chroma, Contrast curve, Local contrast (by wavelet level), Blur Mask and Structure Mask (if enabled ).\nDisabled when Inverse mode is used. !TP_LOCALLAB_MASK;Curves !TP_LOCALLAB_MASK2;Contrast curve !TP_LOCALLAB_MASKCOL; !TP_LOCALLAB_MASKCOM;Common Color Mask !TP_LOCALLAB_MASKCOM_TOOLNAME;Common Color Mask !TP_LOCALLAB_MASKCOM_TOOLTIP;A tool in its own right.\nCan be used to adjust the image appearance (chrominance, luminance, contrast) and texture as a function of Scope. !TP_LOCALLAB_MASKCURVE_TOOLTIP;The 3 curves are set to 1 (maximum) by default:\nC=f(C) the chroma varies according to the chrominance. You can decrease the chroma to improve the selection. By setting this curve close to zero (with a low value of C to activate the curve) you can desaturate the background in Inverse mode.\nL=f(L) the luminance varies according to the luminance, so you can decrease the brightness to improve the selection.\nL and C = f(H) luminance and chroma vary with hue, so you can decrease luminance and chroma to improve selection !TP_LOCALLAB_MASKDDECAY;Decay strength !TP_LOCALLAB_MASKDECAY_TOOLTIP;Manages the rate of decay for the gray levels in the mask.\n Decay = 1 linear, Decay > 1 sharper parabolic transitions, Decay < 1 more gradual transitions !TP_LOCALLAB_MASKDEINV_TOOLTIP;Reverses the way the algorithm interprets the mask.\nIf checked black and very light areas will be decreased. !TP_LOCALLAB_MASKDE_TOOLTIP;Used to target the denoise as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the ‘dark’ threshold, then the Denoise will be applied progressively.\n if the mask is above the ‘light’ threshold, then the Denoise will be applied progressively.\n Between the two, the image settings without the Denoise will be maintained, unless you adjust the sliders "Gray area luminance denoise" or "Gray area chrominance denoise". !TP_LOCALLAB_MASKGF_TOOLTIP;Used to target the Guided Filter as a function of the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n If the mask is below the ‘dark’ threshold, then the GF will be applied progressively.\n if the mask is above the ‘light’ threshold, then the GF will be applied progressively.\n Between the two, the image settings without the GF will be maintained. !TP_LOCALLAB_MASKH;Hue curve !TP_LOCALLAB_MASKHIGTHRESCB_TOOLTIP;Lighter-tone limit above which CBDL (Luminance only) parameters will be restored progressively to their original values prior to being modified by the CBDL settings .\n You can use certain tools in ‘Mask and modifications’ to change the gray levels:‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESC_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Structure mask’, 'Blur mask', ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’, ‘Local contrast’ (wavelets).\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESD_TOOLTIP; The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Structure mask’, ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’, ‘Local contrast’ (wavelets).\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask'=0 in Settings. !TP_LOCALLAB_MASKHIGTHRESE_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable colorpicker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESL_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels:‘Smooth radius’, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESRETI_TOOLTIP;Lighter-tone limit above which Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESS_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESTM_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESVIB_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels:‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRESWAV_TOOLTIP;Lighter-tone limit above which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKHIGTHRES_TOOLTIP; The Guided Filter is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (as determined by the mask).\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘structure mask’, ‘Smooth radius’, ‘Gamma and slope’, ‘Contrast curve’, ‘Local contrast wavelet’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Be careful in 'settings' to Background color mask = 0 !TP_LOCALLAB_MASKLCTHR;Light area luminance threshold !TP_LOCALLAB_MASKLCTHR2;Light area luma threshold !TP_LOCALLAB_MASKLCTHRLOW;Dark area luminance threshold !TP_LOCALLAB_MASKLCTHRLOW2;Dark area luma threshold !TP_LOCALLAB_MASKLCTHRMID;Gray area luma denoise !TP_LOCALLAB_MASKLCTHRMIDCH;Gray area chroma denoise !TP_LOCALLAB_MASKLC_TOOLTIP;This allows you to target the denoise based on the image luminance information contained in the L(L) or LC(H) mask (Mask and Modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n 'Dark area luminance threshold'. If 'Reinforce denoise in dark and light areas' > 1 the denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (determined by mask).\n 'Light area luminance threshold'. The denoise is progressively decreased from 100% at the threshold setting to 0% at the maximum white value (determined by mask).\n In the area between the two thresholds, the denoise settings are not affected by the mask. !TP_LOCALLAB_MASKLNOISELOW;Reinforce dark/light areas !TP_LOCALLAB_MASKLOWTHRESCB_TOOLTIP;Dark-tone limit below which the CBDL parameters (Luminance only) will be restored progressively to their original values prior to being modified by the CBDL settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESC_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Color and Light settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Structure mask’, 'blur mask', ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’, ‘Local contrast’ (wavelets).\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESD_TOOLTIP;The denoise is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Structure mask’, ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’, ‘Local contrast’ (wavelets).\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESE_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESL_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Log encoding settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels:‘Smooth radius’, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESRETI_TOOLTIP;Dark-tone limit below which the Retinex (Luminance only) parameters will be restored progressively to their original values prior to being modified by the Retinex settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESS_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Shadows Highlights settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESTM_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Tone Mapping settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESVIB_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRESWAV_TOOLTIP;Dark-tone limit below which the parameters will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings.\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’.\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKLOWTHRES_TOOLTIP;The Guided Filter is progressively increased from 0% at the threshold setting to 100% at the maximum black value (as determined by the mask).\n You can use certain tools in ‘Mask and modifications’ to change the gray levels: ‘Structure mask’, ‘Smooth radius’, Gamma and Slope, ‘Contrast curve’, ‘Local contrast’ (wavelets).\n Use a ‘lockable color picker’ on the mask to see which areas will be affected. Make sure you set ‘Background color mask’ = 0 in Settings. !TP_LOCALLAB_MASKRECOL_TOOLTIP;Used to modulate the effect of the Color and Light settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Color and Light settings \n In between these two areas, the full value of the Color and Light settings will be applied !TP_LOCALLAB_MASKRECOTHRES;Recovery threshold !TP_LOCALLAB_MASKREEXP_TOOLTIP;Used to modulate the effect of the 'Dynamic range and Exposure' settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the 'Dynamic range and Exposure' settings \n In between these two areas, the full value of the 'Dynamic range and Exposure' settings will be applied !TP_LOCALLAB_MASKRELOG_TOOLTIP;Used to modulate the effect of the Log encoding settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Log encoding settings - can be used to restore highlights reconstructed by Color propagation \n In between these two areas, the full value of the Log encoding settings will be applied !TP_LOCALLAB_MASKRESCB_TOOLTIP;Used to modulate the effect of the CBDL (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the CBDL settings \n In between these two areas, the full value of the CBDL settings will be applied !TP_LOCALLAB_MASKRESH_TOOLTIP;Used to modulate the effect of the Shadows Highlights settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Shadows Highlights settings \n In between these two areas, the full value of the Shadows Highlights settings will be applied !TP_LOCALLAB_MASKRESRETI_TOOLTIP;Used to modulate the effect of the Retinex (Luminance only) settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Retinex settings \n In between these two areas, the full value of the Retinex settings will be applied !TP_LOCALLAB_MASKRESTM_TOOLTIP;Used to modulate the effect of the Tone Mapping settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Tone Mapping settings \n In between these two areas, the full value of the Tone Mapping settings will be applied !TP_LOCALLAB_MASKRESVIB_TOOLTIP;Used to modulate the effect of the Vibrance and Warm Cool settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Vibrance and Warm Cool settings \n In between these two areas, the full value of the Vibrance and Warm Cool settings will be applied !TP_LOCALLAB_MASKRESWAV_TOOLTIP;Used to modulate the effect of the Local contrast and Wavelet settings based on the image luminance information contained in the L(L) or LC(H) masks (Mask and modifications).\n The L(L) mask or the LC(H) mask must be enabled to use this function.\n The ‘dark’ and ‘light’ areas below the dark threshold and above the light threshold will be restored progressively to their original values prior to being modified by the Local contrast and Wavelet settings \n In between these two areas, the full value of the Local contrast and Wavelet settings will be applied !TP_LOCALLAB_MASKUNUSABLE;Mask disabled (Mask & modifications) !TP_LOCALLAB_MASKUSABLE;Mask enabled (Mask & modifications) !TP_LOCALLAB_MASK_TOOLTIP;You can enable multiple masks for a tool by activating another tool and using only the mask (set the tool sliders to 0 ).\n\nYou can also duplicate the RT-spot and place it close to the first spot. The small variations in the spot references allow you to make fine adjustments. !TP_LOCALLAB_MED;Medium !TP_LOCALLAB_MEDIAN;Median Low !TP_LOCALLAB_MEDIANITER_TOOLTIP;The number of successive iterations carried out by the median filter. !TP_LOCALLAB_MEDIAN_TOOLTIP;You can choose a median value in the range 3x3 to 9x9 pixels. Higher values increase noise reduction and blur. !TP_LOCALLAB_MEDNONE;None !TP_LOCALLAB_MERCOL;Color !TP_LOCALLAB_MERDCOL;Merge background (ΔE) !TP_LOCALLAB_MERELE;Lighten only !TP_LOCALLAB_MERFIV;Addition !TP_LOCALLAB_MERFOR;Color Dodge !TP_LOCALLAB_MERFOU;Multiply !TP_LOCALLAB_MERGE1COLFRA;Merge with Original/Previous/Background !TP_LOCALLAB_MERGECOLFRA;Mask: LCh & Structure !TP_LOCALLAB_MERGECOLFRMASK_TOOLTIP;Allows you to create masks based on the 3 LCh curves and/or a structure-detection algorithm !TP_LOCALLAB_MERGEFIV;Previous Spot(Mask 7) + Mask LCh !TP_LOCALLAB_MERGEFOU;Previous Spot(Mask 7) !TP_LOCALLAB_MERGEMER_TOOLTIP;Takes ΔE into account when merging files (equivalent of scope in this case) !TP_LOCALLAB_MERGENONE;None !TP_LOCALLAB_MERGEONE;Short Curves 'L' Mask !TP_LOCALLAB_MERGEOPA_TOOLTIP;Opacity = % of current spot to be merged with original or previous Spot.\nContrast threshold : adjusts result as a function of contrast in original image. !TP_LOCALLAB_MERGETHR;Original + Mask LCh !TP_LOCALLAB_MERGETWO;Original !TP_LOCALLAB_MERGETYPE;Merge image and mask !TP_LOCALLAB_MERGETYPE_TOOLTIP;None, use all mask in LCh mode.\nShort curves 'L' mask, use a short circuit for mask 2, 3, 4, 6, 7.\nOriginal mask 8, blend current image with original !TP_LOCALLAB_MERHEI;Overlay !TP_LOCALLAB_MERHUE;Hue !TP_LOCALLAB_MERLUCOL;Luminance !TP_LOCALLAB_MERLUM;Luminosity !TP_LOCALLAB_MERNIN;Screen !TP_LOCALLAB_MERONE;Normal !TP_LOCALLAB_MERSAT;Saturation !TP_LOCALLAB_MERSEV;Soft Light (legacy) !TP_LOCALLAB_MERSEV1;Soft Light W3C !TP_LOCALLAB_MERSEV2;Hard Light !TP_LOCALLAB_MERSIX;Divide !TP_LOCALLAB_MERTEN;Darken only !TP_LOCALLAB_MERTHI;Color Burn !TP_LOCALLAB_MERTHR;Difference !TP_LOCALLAB_MERTWE;Exclusion !TP_LOCALLAB_MERTWO;Subtract !TP_LOCALLAB_METHOD_TOOLTIP;'Enhanced + chroma denoise' significantly increases processing times.\nBut reduce artifacts. !TP_LOCALLAB_MLABEL;Restored data Min=%1 Max=%2 !TP_LOCALLAB_MLABEL_TOOLTIP;The values should be close to Min=0 Max=32768 (log mode) but other values are possible.You can adjust ‘Clip restored data (gain)’ and ‘Offset’ to normalize.\nRecovers image data without blending. !TP_LOCALLAB_MODE_EXPERT;Advanced !TP_LOCALLAB_MODE_NORMAL;Standard !TP_LOCALLAB_MODE_SIMPLE;Basic !TP_LOCALLAB_MRFIV;Background !TP_LOCALLAB_MRFOU;Previous Spot !TP_LOCALLAB_MRONE;None !TP_LOCALLAB_MRTHR;Original Image !TP_LOCALLAB_MRTWO;Short Curves 'L' Mask !TP_LOCALLAB_MULTIPL_TOOLTIP;Wide-range tone adjustment: -18EV to +4EV. The first slider acts on very dark tones between -18EV and -6EV. The last slider acts on light tones up to 4EV !TP_LOCALLAB_NEIGH;Radius !TP_LOCALLAB_NLDENOISENLGAM_TOOLTIP;Lower values preserve details and texture, higher values increase denoise.\nIf gamma = 3.0 Luminance "linear" is used. !TP_LOCALLAB_NLDENOISENLPAT_TOOLTIP;Use this slider to adapt the amount of denoise to the size of the objects to be processed. !TP_LOCALLAB_NLDENOISENLRAD_TOOLTIP;Higher values increase denoise at the expense of processing time. !TP_LOCALLAB_NLDENOISE_TOOLTIP;“Detail recovery” acts on a Laplacian transform to target uniform areas rather than areas with detail. !TP_LOCALLAB_NLDET;Detail recovery !TP_LOCALLAB_NLFRA;Non-local Means - Luminance !TP_LOCALLAB_NLFRAME_TOOLTIP;Non-local means denoising takes a mean of all pixels in the image, weighted by how similar they are to the target pixel.\nReduces loss of detail compared with local mean algorithms.\nOnly luminance noise is taken into account. Chrominance noise is best processed using wavelets and Fourier transforms (DCT).\nCan be used in conjunction with 'Luminance denoise by level' or on its own. !TP_LOCALLAB_NLGAM;Gamma !TP_LOCALLAB_NLLUM;Strength !TP_LOCALLAB_NLPAT;Maximum patch size !TP_LOCALLAB_NLRAD;Maximum radius size !TP_LOCALLAB_NOISECHROCOARSE;Coarse chroma (Wav) !TP_LOCALLAB_NOISECHROC_TOOLTIP;If superior to zero, high quality algorithm is enabled.\nCoarse is for slider >=0.02 !TP_LOCALLAB_NOISECHRODETAIL;Chroma detail recovery !TP_LOCALLAB_NOISECHROFINE;Fine chroma (Wav) !TP_LOCALLAB_NOISEDETAIL_TOOLTIP;Disabled if slider = 100 !TP_LOCALLAB_NOISEGAM;Gamma !TP_LOCALLAB_NOISEGAM_TOOLTIP;If gamma = 1 Luminance "Lab" is used. If gamma = 3.0 Luminance "linear" is used.\nLower values preserve details and texture, higher values increase denoise. !TP_LOCALLAB_NOISELEQUAL;Equalizer white-black !TP_LOCALLAB_NOISELUMCOARSE;Luminance coarse (Wav) !TP_LOCALLAB_NOISELUMDETAIL;Luma detail recovery !TP_LOCALLAB_NOISELUMFINE;Luminance fine 1 (Wav) !TP_LOCALLAB_NOISELUMFINETWO;Luminance fine 2 (Wav) !TP_LOCALLAB_NOISELUMFINEZERO;Luminance fine 0 (Wav) !TP_LOCALLAB_NOISEMETH;Denoise !TP_LOCALLAB_NOISE_TOOLTIP;Adds luminance noise !TP_LOCALLAB_NONENOISE;None !TP_LOCALLAB_NUL_TOOLTIP;. !TP_LOCALLAB_OFFS;Offset !TP_LOCALLAB_OFFSETWAV;Offset !TP_LOCALLAB_OPACOL;Opacity !TP_LOCALLAB_ORIGLC;Merge only with original image !TP_LOCALLAB_ORRETILAP_TOOLTIP;Modifies ΔE prior to any changes made by ‘Scope’. This allows you to differentiate the action for different parts of the image (with respect to the background for example). !TP_LOCALLAB_ORRETISTREN_TOOLTIP;Acts on the Laplacian threshold, the greater the action, the more the differences in contrast will be reduced !TP_LOCALLAB_PASTELS2;Vibrance !TP_LOCALLAB_PDE;Contrast Attenuator - Dynamic Range compression !TP_LOCALLAB_PDEFRA;Contrast Attenuator ƒ !TP_LOCALLAB_PDEFRAME_TOOLTIP;PDE IPOL algorithm adapted for Rawtherapee : gives different results and requires different settings compared to main-menu ‘Exposure’.\nMay be useful for under-exposed or high dynamic range images. !TP_LOCALLAB_PREVHIDE;Hide additional settings !TP_LOCALLAB_PREVIEW;Preview ΔE !TP_LOCALLAB_PREVSHOW;Show additional settings !TP_LOCALLAB_PROXI;ΔE decay !TP_LOCALLAB_QUAAGRES;Aggressive !TP_LOCALLAB_QUACONSER;Conservative !TP_LOCALLAB_QUALCURV_METHOD;Curve type !TP_LOCALLAB_QUAL_METHOD;Global quality !TP_LOCALLAB_QUANONEALL;Off !TP_LOCALLAB_QUANONEWAV;Non-local means only !TP_LOCALLAB_RADIUS;Radius !TP_LOCALLAB_RADIUS_TOOLTIP;Uses a Fast Fourier Transform for radius > 30 !TP_LOCALLAB_RADMASKCOL;Smooth radius !TP_LOCALLAB_RECOTHRES02_TOOLTIP;If the “Recovery threshold” value is greater than 1, the mask in Mask and Modifications takes into account any previous modifications made to the image but not those made with the current tool (e.g. Color and Light, Wavelet, Cam16, etc.)\nIf the value of the “Recovery threshold” is less than 1, the mask in Mask and Modifications does not take into account any previous modifications to the image.\n\nIn both cases, the “Recovery threshold” acts on the masked image as modified by the current tool (Color and Light, Wavelet, Cam16, etc.). !TP_LOCALLAB_RECT;Rectangle !TP_LOCALLAB_RECURS;Recursive references !TP_LOCALLAB_RECURS_TOOLTIP;Forces the algorithm to recalculate the references after each tool is applied.\nAlso useful for working with masks. !TP_LOCALLAB_REFLABEL;Ref. (0..1) Chroma=%1 Luma=%2 Hue=%3 !TP_LOCALLAB_REN_DIALOG_LAB;Enter the new Control Spot name !TP_LOCALLAB_REN_DIALOG_NAME;Renaming Control Spot !TP_LOCALLAB_REPARCOL_TOOLTIP;Allows you to adjust the relative strength of the Color and Light image with respect to the original image. !TP_LOCALLAB_REPARDEN_TOOLTIP;Allows you to adjust the relative strength of the Denoise image with respect to the original image. !TP_LOCALLAB_REPAREXP_TOOLTIP;Allows you to adjust the relative strength of the Dynamic Range and Exposure image with respect to the original image. !TP_LOCALLAB_REPARSH_TOOLTIP;Allows you to adjust the relative strength of the Shadows/Highlights and Tone Equalizer image with respect to the original image. !TP_LOCALLAB_REPARTM_TOOLTIP;Allows you to adjust the relative strength of the Tone mapping image with respect to the original image. !TP_LOCALLAB_REPARW_TOOLTIP;Allows you to adjust the relative strength of the local contrast and wavelet image with respect to the original image. !TP_LOCALLAB_RESETSHOW;Reset All Show Modifications !TP_LOCALLAB_RESID;Residual Image !TP_LOCALLAB_RESIDBLUR;Blur residual image !TP_LOCALLAB_RESIDCHRO;Residual image Chroma !TP_LOCALLAB_RESIDCOMP;Compress residual image !TP_LOCALLAB_RESIDCONT;Residual image Contrast !TP_LOCALLAB_RESIDHI;Highlights !TP_LOCALLAB_RESIDHITHR;Highlights threshold !TP_LOCALLAB_RESIDSHA;Shadows !TP_LOCALLAB_RESIDSHATHR;Shadows threshold !TP_LOCALLAB_RETI;Dehaze & Retinex !TP_LOCALLAB_RETIFRA;Retinex !TP_LOCALLAB_RETIFRAME_TOOLTIP;Retinex can be useful for processing images: \nthat are blurred, foggy or hazy (in addition to Dehaze).\nthat contain large differences in luminance.\nIt can also be used for special effects (tone mapping). !TP_LOCALLAB_RETIM;Original Retinex !TP_LOCALLAB_RETITOOLFRA;Retinex Tools !TP_LOCALLAB_RETI_FFTW_TOOLTIP;FFT improve quality and allow big radius, but increases the treatment time.\nThe treatment time depends on the surface to be treated\nThe treatment time depends on the value of scale (be careful of high values).\nTo be used preferably for large radius.\n\nDimensions can be reduced by a few pixels to optimize FFTW.\nThis optimization can reduce the treatment time by a factor of 1.5 to 10.\nOptimization not used in Preview !TP_LOCALLAB_RETI_LIGHTDARK_TOOLTIP;Has no effect when the value of "Lightness = 1" or "Darkness =2".\nFor other values, the last step of a "Multiple scale Retinex" algorithm (similar to "local contrast") is applied. These 2 cursors, associated with "Strength" allow you to make adjustments upstream of local contrast !TP_LOCALLAB_RETI_LIMDOFFS_TOOLTIP;Adjusts the internal parameters to optimize the response.\nPreferable to keep the "Restored data" values close to Min=0 and Max=32768 (log mode), but other values are possible. !TP_LOCALLAB_RETI_LOGLIN_TOOLTIP;Logarithm mode introduces more contrast but will also generate more halos. !TP_LOCALLAB_RETI_NEIGH_VART_TOOLTIP;The radius and variance sliders allow you adjust haze and target either the foreground or the background. !TP_LOCALLAB_RETI_SCALE_TOOLTIP;If Scale=1, Retinex behaves like local contrast with additional possibilities.\nIncreasing the value of Scale increases the intensity of the recursive action at the expense of processing time. !TP_LOCALLAB_RET_TOOLNAME;Dehaze & Retinex !TP_LOCALLAB_REWEI;Reweighting iterates !TP_LOCALLAB_RGB;RGB Tone Curve !TP_LOCALLAB_RGBCURVE_TOOLTIP;In RGB mode you have 4 choices : Standard, Weighted standard, Luminance & Film-like. !TP_LOCALLAB_ROW_NVIS;Not visible !TP_LOCALLAB_ROW_VIS;Visible !TP_LOCALLAB_RSTPROTECT_TOOLTIP;Red and skin-tone protection affects the Saturation, Chroma and Colorfulness sliders. !TP_LOCALLAB_SATUR;Saturation !TP_LOCALLAB_SATURV;Saturation (s) !TP_LOCALLAB_SAVREST;Save - Restore Current Image !TP_LOCALLAB_SCALEGR;Scale !TP_LOCALLAB_SCALERETI;Scale !TP_LOCALLAB_SCALTM;Scale !TP_LOCALLAB_SCOPEMASK;Scope (ΔE image mask) !TP_LOCALLAB_SCOPEMASK_TOOLTIP;Enabled if DeltaE Image Mask is enabled.\nLow values avoid retouching selected area !TP_LOCALLAB_SENSI;Scope !TP_LOCALLAB_SENSIEXCLU;Scope !TP_LOCALLAB_SENSIEXCLU_TOOLTIP;Adjust the colors to be excluded !TP_LOCALLAB_SENSIMASK_TOOLTIP;Scope adjustment specific to common mask tool.\nActs on the difference between the original image and the mask.\nUses the luma, chroma and hue references from the center of the RT-spot\n\nYou can also adjust the deltaE of the mask itself by using 'Scope (deltaE image mask)' in 'Settings' > ‘Mask and Merge’ !TP_LOCALLAB_SENSI_TOOLTIP;Adjusts the scope of the action:\nSmall values limit the action to colors similar to those in the center of the spot.\nHigh values let the tool act on a wider range of colors !TP_LOCALLAB_SETTINGS;Settings !TP_LOCALLAB_SH1;Shadows Highlights !TP_LOCALLAB_SH2;Equalizer !TP_LOCALLAB_SHADEX;Shadows !TP_LOCALLAB_SHADEXCOMP;Shadow compression !TP_LOCALLAB_SHADHIGH;Shadows/Highlights & Tone Equalizer !TP_LOCALLAB_SHADHMASK_TOOLTIP;Lowers the highlights of the mask in the same way as the shadows/highlights algorithm !TP_LOCALLAB_SHADMASK_TOOLTIP;Lifts the shadows of the mask in the same way as the shadows/highlights algorithm !TP_LOCALLAB_SHADOWHIGHLIGHT_TOOLTIP;Adjust shadows and highlights either with shadows & highlights sliders or with a tone equalizer.\nCan be used instead of, or in conjunction with the Exposure module.\nCan also be used as a graduated filter. !TP_LOCALLAB_SHAMASKCOL;Shadows !TP_LOCALLAB_SHAPETYPE;RT-spot shape !TP_LOCALLAB_SHAPE_TOOLTIP;”Ellipse” is the normal mode.\n “Rectangle” can be used in certain cases, for example to work in full-image mode by placing the delimiters outside the preview area. In this case, set transition = 100.\n\nFuture developments will include polygon shapes and Bezier curves. !TP_LOCALLAB_SHARAMOUNT;Amount !TP_LOCALLAB_SHARBLUR;Blur radius !TP_LOCALLAB_SHARDAMPING;Damping !TP_LOCALLAB_SHARFRAME;Modifications !TP_LOCALLAB_SHARITER;Iterations !TP_LOCALLAB_SHARP;Sharpening !TP_LOCALLAB_SHARP_TOOLNAME;Sharpening !TP_LOCALLAB_SHARRADIUS;Radius !TP_LOCALLAB_SHORTC;Short Curves 'L' Mask !TP_LOCALLAB_SHORTCMASK_TOOLTIP;Short circuit the 2 curves L(L) and L(H).\nAllows you to mix the current image with the original image modified by the mask job.\nUsable with masks 2, 3, 4, 6, 7 !TP_LOCALLAB_SHOWC;Mask and modifications !TP_LOCALLAB_SHOWC1;Merge file !TP_LOCALLAB_SHOWCB;Mask and modifications !TP_LOCALLAB_SHOWDCT;Show Fourier (ƒ) process !TP_LOCALLAB_SHOWE;Mask and modifications !TP_LOCALLAB_SHOWFOURIER;Fourier ƒ(dct) !TP_LOCALLAB_SHOWLAPLACE;∆ Laplacian (first) !TP_LOCALLAB_SHOWLC;Mask and modifications !TP_LOCALLAB_SHOWMASK;Show mask !TP_LOCALLAB_SHOWMASKCOL_TOOLTIP;Displays masks and modifications.\nBeware, you can only view one tool mask at a time.\nShow modified image: shows the modified image including the effect of any adjustments and masks.\nShow modified areas without mask: shows the modifications before any masks are applied.\nShow modified areas with mask: shows the modifications after a mask has been applied.\nShow mask: shows the aspect of the mask including the effect of any curves and filters.\nShow spot structure: allows you to see the structure-detection mask when the "Spot structure" cursor is activated (when available).\nNote: The mask is applied before the shape detection algorithm. !TP_LOCALLAB_SHOWMASKSOFT_TOOLTIP;Allows you to visualize the different stages of the Fourier process.\n Laplace - calculates the second derivative of the Laplace transform as a function of the threshold.\nFourier - shows the Laplacian transform with DCT.\nPoisson - shows the solution of the Poisson DCE.\nNo luminance normalization - shows result without any luminance normalization. !TP_LOCALLAB_SHOWMASKTYP1;Blur & Noise !TP_LOCALLAB_SHOWMASKTYP2;Denoise !TP_LOCALLAB_SHOWMASKTYP3;Blur & Noise + Denoise !TP_LOCALLAB_SHOWMASKTYP_TOOLTIP;Can be used with ‘Mask and modifications’.\nIf ‘Blur and noise’ is selected, the mask cannot be used for Denoise.\nIf Denoise is selected, the mask cannot be used for ‘Blur and noise’.\nIf ‘Blur and noise + Denoise’ is selected, the mask is shared. Note that in this case, the Scope sliders for both ‘Blur and noise’ and Denoise will be active so it is advisable to use the option ‘Show modifications with mask’ when making any adjustments. !TP_LOCALLAB_SHOWMNONE;Show modified image !TP_LOCALLAB_SHOWMODIF;Show modified areas without mask !TP_LOCALLAB_SHOWMODIF2;Show modified areas !TP_LOCALLAB_SHOWMODIFMASK;Show modified areas with mask !TP_LOCALLAB_SHOWNORMAL;No luminance normalization !TP_LOCALLAB_SHOWPLUS;Mask and modifications (Blur & Denoise) !TP_LOCALLAB_SHOWPOISSON;Poisson (pde ƒ) !TP_LOCALLAB_SHOWR;Mask and modifications !TP_LOCALLAB_SHOWREF;Preview ΔE !TP_LOCALLAB_SHOWS;Mask and modifications !TP_LOCALLAB_SHOWSTRUC;Show spot structure(Advanced) !TP_LOCALLAB_SHOWSTRUCEX;Show spot structure(Advanced) !TP_LOCALLAB_SHOWT;Mask and modifications !TP_LOCALLAB_SHOWVI;Mask and modifications !TP_LOCALLAB_SHRESFRA;Shadows/Highlights & TRC !TP_LOCALLAB_SHTRC_TOOLTIP;Based on 'working profile' (only those provided), modifies the tones of the image by acting on a TRC (Tone Response Curve).\nGamma acts mainly on light tones.\nSlope acts mainly on dark tones.\nIt is recommended that the TRC of both devices (monitor and output profile) be sRGB (default). !TP_LOCALLAB_SH_TOOLNAME;Shadows/Highlights & Tone Equalizer !TP_LOCALLAB_SIGFRA;Sigmoid Q & Log encoding Q !TP_LOCALLAB_SIGJZFRA;Sigmoid Jz !TP_LOCALLAB_SIGMAWAV;Attenuation response !TP_LOCALLAB_SIGMOIDBL;Blend !TP_LOCALLAB_SIGMOIDLAMBDA;Contrast !TP_LOCALLAB_SIGMOIDQJ;Uses Black Ev & White Ev !TP_LOCALLAB_SIGMOIDTH;Threshold (Gray point) !TP_LOCALLAB_SIGMOID_TOOLTIP;Allows you to simulate a Tone-mapping appearance using both the'Ciecam' (or 'Jz') and 'Sigmoid' function.\nThree sliders: a) Contrast acts on the shape of the sigmoid curve and consequently on the strength; b) Threshold (Gray point) distributes the action according to the luminance; c)Blend acts on the final aspect of the image, contrast and luminance. !TP_LOCALLAB_SIM;Simple !TP_LOCALLAB_SLOMASKCOL;Slope !TP_LOCALLAB_SLOMASK_TOOLTIP;Adjusting Gamma and Slope can provide a soft and artifact-free transformation of the mask by progressively modifying ‘L’ to avoid any discontinuities. !TP_LOCALLAB_SLOSH;Slope !TP_LOCALLAB_SOFT;Soft Light & Original Retinex !TP_LOCALLAB_SOFTM;Soft Light !TP_LOCALLAB_SOFTMETHOD_TOOLTIP;Apply a Soft-light blend (identical to the global adjustment). Carry out dodge and burn using the original Retinex algorithm. !TP_LOCALLAB_SOFTRADIUSCOL;Soft radius !TP_LOCALLAB_SOFTRADIUSCOL_TOOLTIP;Applies a guided filter to the output image to reduce possible artifacts. !TP_LOCALLAB_SOFTRETI;Reduce ΔE artifacts !TP_LOCALLAB_SOFTRETI_TOOLTIP;Take into account deltaE to improve Transmission map !TP_LOCALLAB_SOFT_TOOLNAME;Soft Light & Original Retinex !TP_LOCALLAB_SOURCE_ABS;Absolute luminance !TP_LOCALLAB_SOURCE_GRAY;Mean luminance (Yb%) !TP_LOCALLAB_SPECCASE;Specific cases !TP_LOCALLAB_SPECIAL;Special use of RGB curves !TP_LOCALLAB_SPECIAL_TOOLTIP;The checkbox allows you to remove all other actions i.e. ‘Scope’, masks, sliders etc., (except for transitions) and use just the effect of the RGB tone-curve. !TP_LOCALLAB_SPOTNAME;New Spot !TP_LOCALLAB_STD;Standard !TP_LOCALLAB_STR;Strength !TP_LOCALLAB_STRBL;Strength !TP_LOCALLAB_STREN;Compression strength !TP_LOCALLAB_STRENG;Strength !TP_LOCALLAB_STRENGR;Strength !TP_LOCALLAB_STRENGRID_TOOLTIP;You can adjust the desired effect with "strength", but you can also use the "scope" function which allows you to delimit the action (e.g. to isolate a particular color). !TP_LOCALLAB_STRENGTH;Noise !TP_LOCALLAB_STRGRID;Strength !TP_LOCALLAB_STRRETI_TOOLTIP;if Strength Retinex < 0.2 only Dehaze is enabled.\nif Strength Retinex >= 0.1 Dehaze is in luminance mode. !TP_LOCALLAB_STRUC;Structure !TP_LOCALLAB_STRUCCOL;Spot structure !TP_LOCALLAB_STRUCCOL1;Spot structure !TP_LOCALLAB_STRUCT_TOOLTIP;Uses the Sobel algorithm to take into account structure for shape detection.\nActivate ‘Mask and modifications’ > ‘Show spot structure’ (Advanced mode) to see a preview of the mask (without modifications).\n\nCan be used in conjunction with the Structure Mask, Blur Mask and ‘Local contrast’ (by wavelet level) to improve edge detection.\n\nEffects of adjustments using Lightness, Contrast, Chrominance, Exposure or other non-mask-related tools visible using either ‘Show modified image’ or ‘Show modified areas with mask’. !TP_LOCALLAB_STRUMASKCOL;Structure mask strength !TP_LOCALLAB_STRUMASK_TOOLTIP;Structure mask (slider) with the checkbox 'Structure mask as tool' unchecked: In this case a mask showing the structure will be generated even if none of the 3 curves is activated. Structure masks are available for mask (Blur and denoise") and mask(Color & Light). !TP_LOCALLAB_STRUSTRMASK_TOOLTIP;Moderate use of this slider is recommended! !TP_LOCALLAB_STYPE;Shape method !TP_LOCALLAB_STYPE_TOOLTIP;You can choose between:\nSymmetrical - left handle linked to right, top handle linked to bottom.\nIndependent - all handles are independent. !TP_LOCALLAB_SYM;Symmetrical (mouse) !TP_LOCALLAB_SYMSL;Symmetrical (mouse + sliders) !TP_LOCALLAB_TARGET_GRAY;Mean luminance (Yb%) !TP_LOCALLAB_THRES;Threshold structure !TP_LOCALLAB_THRESDELTAE;ΔE scope threshold !TP_LOCALLAB_THRESRETI;Threshold !TP_LOCALLAB_THRESWAV;Balance threshold !TP_LOCALLAB_TLABEL;TM Min=%1 Max=%2 Mean=%3 Sig=%4 !TP_LOCALLAB_TLABEL2;TM Effective Tm=%1 TM=%2 !TP_LOCALLAB_TLABEL_TOOLTIP;Transmission map result.\nMin and Max are used by Variance.\nTm=Min TM=Max of Transmission Map.\nYou can normalize the results with the threshold slider. !TP_LOCALLAB_TM;Tone Mapping !TP_LOCALLAB_TM_MASK;Use transmission map !TP_LOCALLAB_TONEMAPESTOP_TOOLTIP;This slider affects edge sensitivity.\n The greater the value, the more likely a change in contrast will be interpreted as an "edge".\n If set to zero the tone mapping will have an effect similar to unsharp masking. !TP_LOCALLAB_TONEMAPGAM_TOOLTIP;The Gamma slider shifts the tone-mapping effect towards either the shadows or the highlights. !TP_LOCALLAB_TONEMAPREWEI_TOOLTIP;In some cases tone mapping may result in a cartoonish appearance, and in some rare cases soft but wide halos may appear.\n Increasing the number of reweighting iterates will help fight some of these problems. !TP_LOCALLAB_TONEMAP_TOOLTIP;Same as the tone mapping tool in the main menu.\nThe main-menu tool must be deactivated if this tool is used. !TP_LOCALLAB_TONEMASCALE_TOOLTIP;This slider allows you to adjust the transition between "local" and "global" contrast.\nThe greater the value, the larger a detail needs to be for it to be boosted !TP_LOCALLAB_TONE_TOOLNAME;Tone Mapping !TP_LOCALLAB_TOOLCOL;Structure mask as tool !TP_LOCALLAB_TOOLCOLFRMASK_TOOLTIP;Allows you to modify the mask, if one exists !TP_LOCALLAB_TOOLMASK;Mask Tools !TP_LOCALLAB_TOOLMASK_2;Wavelets !TP_LOCALLAB_TOOLMASK_TOOLTIP;Structure mask (slider) with the checkbox ‘Structure mask as tool’ checked: in this case a mask showing the structure will be generated after one or more of the 2 curves L(L) or LC(H) has been modified.\n Here, the ‘Structure mask’ behaves like the other Mask tools : Gamma, Slope, etc.\n It allows you to vary the action on the mask according to the structure of the image. !TP_LOCALLAB_TRANSIT;Transition Gradient !TP_LOCALLAB_TRANSITGRAD;Transition differentiation XY !TP_LOCALLAB_TRANSITGRAD_TOOLTIP;Allows you to vary the y-axis transition !TP_LOCALLAB_TRANSITVALUE;Transition value !TP_LOCALLAB_TRANSITWEAK;Transition decay (linear-log) !TP_LOCALLAB_TRANSITWEAK_TOOLTIP;Adjust transition decay function: 1 linear , 2 parabolic, 3 cubic up to ^25.\nCan be used in conjunction with very low transition values to reduce defects (CBDL, Wavelets, Color & Light) !TP_LOCALLAB_TRANSIT_TOOLTIP;Adjust smoothness of transition between affected and unaffected areas as a percentage of the "radius" !TP_LOCALLAB_TRANSMISSIONGAIN;Transmission gain !TP_LOCALLAB_TRANSMISSIONMAP;Transmission map !TP_LOCALLAB_TRANSMISSION_TOOLTIP;Transmission according to transmission.\nAbscissa: transmission from negative values (min), mean, and positive values (max).\nOrdinate: amplification or reduction.\nYou can adjust this curve to change the Transmission and reduce artifacts !TP_LOCALLAB_USEMASK;Laplacian !TP_LOCALLAB_VART;Variance (contrast) !TP_LOCALLAB_VIBRANCE;Vibrance & Warm/Cool !TP_LOCALLAB_VIBRA_TOOLTIP;Adjusts vibrance (essentially the same as the global adjustment).\nCarries out the equivalent of a white-balance adjustment using a CIECAM algorithm. !TP_LOCALLAB_VIB_TOOLNAME;Vibrance & Warm/Cool !TP_LOCALLAB_VIS_TOOLTIP;Click to show/hide selected Control Spot.\nCtrl+click to show/hide all Control Spot. !TP_LOCALLAB_WAMASKCOL;Mask Wavelet level !TP_LOCALLAB_WARM;Warm/Cool & Color artifacts !TP_LOCALLAB_WARM_TOOLTIP;This slider uses the CIECAM algorithm and acts as a White Balance control to make the color temperature of the selected area warmer or cooler.\nIt can also reduce color artifacts in some cases. !TP_LOCALLAB_WASDEN_TOOLTIP;Luminance noise reduction: the left-hand side of the curve including the dark-gray/light-gray boundary corresponds to the first 3 levels 0, 1, 2 (fine detail). The right hand side of the curve corresponds to the coarser details (level 3, 4, 5, 6). !TP_LOCALLAB_WAT_BALTHRES_TOOLTIP;Balances the action within each level. !TP_LOCALLAB_WAT_BLURLC_TOOLTIP;The default blur setting affects all 3 L*a* b* components (luminance and colour).\nWhen checked, only luminance is blurred. !TP_LOCALLAB_WAT_CLARICJZ_TOOLTIP;“Merge chroma” is used to select the intensity of the desired effect on chrominance.\nOnly the maximum value of wavelet levels (bottom-right) is taken into account. !TP_LOCALLAB_WAT_CLARIC_TOOLTIP;“Merge chroma” is used to select the intensity of the desired effect on chrominance. !TP_LOCALLAB_WAT_CLARILJZ_TOOLTIP;“Merge luma” is used to select the intensity of the desired effect on luminance.\nOnly the maximum value of wavelet levels (bottom-right) is taken into account. !TP_LOCALLAB_WAT_CLARIL_TOOLTIP;“Merge luma” is used to select the intensity of the desired effect on luminance. !TP_LOCALLAB_WAT_CONTCHROMALEV_TOOLTIP;‘Chroma levels’: adjusts the “a” and “b” components of Lab* as a proportion of the luminance value. !TP_LOCALLAB_WAT_CONTOFFSET_TOOLTIP;Offset modifies the balance between low-contrast and high-contrast details.\nHigh values will amplify contrast changes to the higher-contrast details, whereas low values will amplify contrast changes to low-contrast details.\nBy using a low ‘Attenuation response’ value you can select which contrast values will be enhanced. !TP_LOCALLAB_WAT_DELTABAL_TOOLTIP;By moving the slider to the left, the lower levels are accentuated. To the right, the lower levels are reduced and the higher levels accentuated. !TP_LOCALLAB_WAT_EXPRESID_TOOLTIP;The residual image behaves in the same way as the main image when making adjustments to contrast, chroma etc. !TP_LOCALLAB_WAT_GRADW_TOOLTIP;The more you move the slider to the right, the more effective the detection algorithm will be and the less noticeable the effects of local contrast. !TP_LOCALLAB_WAT_LEVELLOCCONTRAST_TOOLTIP;Low to high local contrast from left to right on the x-axis.\nIncreases or decreases local contrast on the y-axis. !TP_LOCALLAB_WAT_LOCCONTRASTEDG_TOOLTIP;You can adjust the distribution of local contrast by wavelet level based on the initial intensity of the contrast. This will modify the effects of perspective and relief in the image, and/or reduce the contrast values for very low initial contrast levels. !TP_LOCALLAB_WAT_ORIGLC_TOOLTIP;‘Merge only with original image’, prevents the ‘Wavelet Pyramid’ settings from interfering with ‘Clarity’ and ‘Sharp mask’. !TP_LOCALLAB_WAT_RESIDBLUR_TOOLTIP;Blurs the residual image, independent of the levels. !TP_LOCALLAB_WAT_RESIDCOMP_TOOLTIP;Compresses the residual image to increase or reduce contrast. !TP_LOCALLAB_WAT_SIGMALC_TOOLTIP;The effect of the local contrast adjustment is stronger for medium-contrast details and weaker for high and low-contrast details.\n This slider controls how quickly the effect dampens towards the extreme contrasts.\nThe higher the value of the slider, the wider the range of contrasts that will receive the full effect of the local contrast adjustment and the higher the risk of generating artifacts.\nThe lower the value, the more the effect will be pinpointed towards a narrow range of contrast values. !TP_LOCALLAB_WAT_STRENGTHW_TOOLTIP;Intensity of edge-effect detection. !TP_LOCALLAB_WAT_STRWAV_TOOLTIP;Allows the local contrast to be varied according to a chosen gradient and angle. The variation of the luminance signal is taken into account and not the luminance. !TP_LOCALLAB_WAT_THRESHOLDWAV_TOOLTIP;Range of wavelet levels used throughout the Wavelets module. !TP_LOCALLAB_WAT_WAVBLURCURV_TOOLTIP;Allows you to blur each level of decomposition.\nThe finest to coarsest levels of decomposition are from left to right. !TP_LOCALLAB_WAT_WAVCBDL_TOOLTIP;Similar to Contrast By Detail Levels. Fine to coarse detail levels from left to right on the x-axis. !TP_LOCALLAB_WAT_WAVDELTABAL_TOOLTIP;Acts on the balance of the three directions (horizontal, vertical and diagonal) based on the luminance of the image.\nBy default the shadows or highlights are reduced to avoid artifacts. !TP_LOCALLAB_WAT_WAVESHOW_TOOLTIP;Shows all of the ‘Edge sharpness’ tools. It is advisable to read the Wavelet Levels documentation. !TP_LOCALLAB_WAT_WAVLEVELBLUR_TOOLTIP;Allows you to adjust the maximum effect of blurring on the levels. !TP_LOCALLAB_WAT_WAVSHAPE_TOOLTIP;Low to high local contrast from left to right on the x-axis\nIncrease or decrease local contrast on the y-axis. !TP_LOCALLAB_WAT_WAVTM_TOOLTIP;The lower (negative) part compresses each level of decomposition creating a tone mapping effect.\nThe upper (positive) part attenuates the contrast by level.\nThe finest to coarsest levels of decomposition are from left to right on the x-axis. !TP_LOCALLAB_WAV;Local contrast !TP_LOCALLAB_WAVBLUR_TOOLTIP;Allows you to blur each level of the decomposition, as well as the residual image. !TP_LOCALLAB_WAVCOMP;Compression by level !TP_LOCALLAB_WAVCOMPRE;Compression by level !TP_LOCALLAB_WAVCOMPRE_TOOLTIP;Allows you to apply tone mapping or reduce local contrast on individual levels.\nFine to coarse detail levels from left to right on the x-axis. !TP_LOCALLAB_WAVCOMP_TOOLTIP;Allows you to apply local contrast based on the direction of the wavelet decomposition : horizontal, vertical, diagonal !TP_LOCALLAB_WAVCON;Contrast by level !TP_LOCALLAB_WAVCONTF_TOOLTIP;Similar to Contrast By Detail Levels. Fine to coarse detail levels from left to right on the x-axis. !TP_LOCALLAB_WAVDEN;Luminance denoise !TP_LOCALLAB_WAVE;Wavelets !TP_LOCALLAB_WAVEDG;Local contrast !TP_LOCALLAB_WAVEEDG_TOOLTIP;Improves sharpness by targeting the action of local contrast on the edges. It has the same functions as the corresponding module in Wavelet Levels and uses the same settings. !TP_LOCALLAB_WAVEMASK_LEVEL_TOOLTIP;Range of wavelet levels used in ‘Local contrast’ (by wavelet level). !TP_LOCALLAB_WAVGRAD_TOOLTIP;Allows the local contrast to be varied according to a chosen gradient and angle. The variation of the luminance signal is taken into account and not the luminance. !TP_LOCALLAB_WAVHIGH;Wavelet high !TP_LOCALLAB_WAVHUE_TOOLTIP;Allows you to reduce or increase the denoise based on hue. !TP_LOCALLAB_WAVLEV;Blur by level !TP_LOCALLAB_WAVLOW;Wavelet low !TP_LOCALLAB_WAVMASK;Local contrast !TP_LOCALLAB_WAVMASK_TOOLTIP;Uses wavelets to modify the local contrast of the mask and reinforce or reduce the structure (skin, buildings...) !TP_LOCALLAB_WAVMED;Wavelet normal !TP_LOCALLAB_WEDIANHI;Median Hi !TP_LOCALLAB_WHITE_EV;White Ev !TP_LOCALLAB_ZCAMFRA;ZCAM Image Adjustments !TP_LOCALLAB_ZCAMTHRES;Retrieve high datas !TP_LOCAL_HEIGHT;Bottom !TP_LOCAL_HEIGHT_T;Top !TP_LOCAL_WIDTH;Right !TP_LOCAL_WIDTH_L;Left !TP_LOCRETI_METHOD_TOOLTIP;Low = Reinforce low light.\nUniform = Evenly distributed.\nHigh = Reinforce strong light.\n !TP_PERSPECTIVE_CAMERA_CROP_FACTOR;Crop factor !TP_PERSPECTIVE_CAMERA_FOCAL_LENGTH;Focal length !TP_PERSPECTIVE_CAMERA_FRAME;Correction !TP_PERSPECTIVE_CAMERA_PITCH;Vertical !TP_PERSPECTIVE_CAMERA_ROLL;Rotation !TP_PERSPECTIVE_CAMERA_SHIFT_HORIZONTAL;Horizontal shift !TP_PERSPECTIVE_CAMERA_SHIFT_VERTICAL;Vertical shift !TP_PERSPECTIVE_CAMERA_YAW;Horizontal !TP_PERSPECTIVE_CONTROL_LINES;Control lines !TP_PERSPECTIVE_CONTROL_LINES_TOOLTIP;Ctrl+drag: Draw new line\nRight-click: Delete line !TP_PERSPECTIVE_CONTROL_LINE_APPLY_INVALID_TOOLTIP;At least two horizontal or two vertical control lines required. !TP_PERSPECTIVE_METHOD;Method !TP_PERSPECTIVE_METHOD_CAMERA_BASED;Camera-based !TP_PERSPECTIVE_METHOD_SIMPLE;Simple !TP_PERSPECTIVE_POST_CORRECTION_ADJUSTMENT_FRAME;Post-correction adjustment !TP_PERSPECTIVE_PROJECTION_PITCH;Vertical !TP_PERSPECTIVE_PROJECTION_ROTATE;Rotation !TP_PERSPECTIVE_PROJECTION_SHIFT_HORIZONTAL;Horizontal shift !TP_PERSPECTIVE_PROJECTION_SHIFT_VERTICAL;Vertical shift !TP_PERSPECTIVE_PROJECTION_YAW;Horizontal !TP_PERSPECTIVE_RECOVERY_FRAME;Recovery !TP_PREPROCWB_LABEL;Preprocess White Balance !TP_PREPROCWB_MODE;Mode !TP_PREPROCWB_MODE_AUTO;Auto !TP_PREPROCWB_MODE_CAMERA;Camera !TP_RAWEXPOS_TWOGREEN;Link greens !TP_RAW_1PASSMEDIUM;1-pass (Markesteijn) !TP_RAW_2PASS;1-pass+fast !TP_RAW_3PASSBEST;3-pass (Markesteijn) !TP_RAW_4PASS;3-pass+fast !TP_RAW_AMAZEBILINEAR;AMaZE+Bilinear !TP_RAW_DCBBILINEAR;DCB+Bilinear !TP_RAW_FAST;Fast !TP_RAW_PIXELSHIFTAVERAGE;Use average for moving parts !TP_RAW_PIXELSHIFTAVERAGE_TOOLTIP;Use average of all frames instead of selected frame for regions with motion.\nGives motion effect on slow moving (overlapping) objects. !TP_RAW_RCDBILINEAR;RCD+Bilinear !TP_RAW_SENSOR_XTRANS_DMETHOD_TOOLTIP;3-pass gives best results (recommended for low ISO images).\n1-pass is almost undistinguishable from 3-pass for high ISO images and is faster.\n+fast gives less artifacts in flat areas !TP_RAW_SENSOR_XTRANS_LABEL;Sensor with X-Trans Matrix !TP_RAW_XTRANS;X-Trans !TP_RAW_XTRANSFAST;Fast X-Trans !TP_RESIZE_LE;Long Edge: !TP_RESIZE_LONG;Long Edge !TP_RESIZE_SE;Short Edge: !TP_RESIZE_SHORT;Short Edge !TP_RETINEX_CURVEEDITOR_CD;L=f(L) !TP_RETINEX_CURVEEDITOR_CD_TOOLTIP;Luminance according to luminance L=f(L)\nCorrect raw data to reduce halos and artifacts. !TP_RETINEX_CURVEEDITOR_LH;Strength=f(H) !TP_RETINEX_CURVEEDITOR_LH_TOOLTIP;Strength according to hue Strength=f(H)\nThis curve also acts on chroma when using the "Highlight" retinex method. !TP_RETINEX_CURVEEDITOR_MAP;L=f(L) !TP_RETINEX_CURVEEDITOR_MAP_TOOLTIP;This curve can be applied alone or with a Gaussian mask or wavelet mask.\nBeware of artifacts! !TP_RETINEX_FREEGAMMA;Free gamma !TP_RETINEX_GAIN;Gain !TP_RETINEX_GAINOFFS;Gain and Offset (brightness) !TP_RETINEX_GAINTRANSMISSION;Gain transmission !TP_RETINEX_GAINTRANSMISSION_TOOLTIP;Increase or reduce the transmission map to achieve the desired luminance. The x-axis is the transmission. The y-axis is the gain. !TP_RETINEX_GAMMA;Gamma !TP_RETINEX_GAMMA_FREE;Free !TP_RETINEX_GAMMA_HIGH;High !TP_RETINEX_GAMMA_LOW;Low !TP_RETINEX_GAMMA_MID;Middle !TP_RETINEX_GAMMA_NONE;None !TP_RETINEX_GAMMA_TOOLTIP;Restore tones by applying gamma before and after Retinex. Different from Retinex curves or others curves (Lab, Exposure, etc.). !TP_RETINEX_GRAD;Transmission gradient !TP_RETINEX_GRADS;Strength gradient !TP_RETINEX_GRADS_TOOLTIP;If slider at 0, all iterations are identical.\nIf > 0 Strength is reduced when iterations increase, and conversely. !TP_RETINEX_GRAD_TOOLTIP;If slider at 0, all iterations are identical.\nIf > 0 Variance and Threshold are reduced when iterations increase, and conversely. !TP_RETINEX_HIGH;High !TP_RETINEX_HIGHLIG;Highlight !TP_RETINEX_HIGHLIGHT;Highlight threshold !TP_RETINEX_HIGHLIGHT_TOOLTIP;Increase action of High algorithm.\nMay require you to re-adjust "Neighboring pixels" and to increase the "White-point correction" in the Raw tab -> Raw White Points tool. !TP_RETINEX_HSLSPACE_LIN;HSL-Linear !TP_RETINEX_HSLSPACE_LOG;HSL-Logarithmic !TP_RETINEX_ITER;Iterations (Tone-mapping) !TP_RETINEX_ITERF;Tone mapping !TP_RETINEX_ITER_TOOLTIP;Simulate a tone-mapping operator.\nHigh values increase the processing time. !TP_RETINEX_LABEL;Retinex !TP_RETINEX_LABEL_MASK;Mask !TP_RETINEX_LABSPACE;L*a*b* !TP_RETINEX_LOW;Low !TP_RETINEX_MAP;Method !TP_RETINEX_MAP_GAUS;Gaussian mask !TP_RETINEX_MAP_MAPP;Sharp mask (wavelet partial) !TP_RETINEX_MAP_MAPT;Sharp mask (wavelet total) !TP_RETINEX_MAP_METHOD_TOOLTIP;Use the mask generated by the Gaussian function above (Radius, Method) to reduce halos and artifacts.\n\nCurve only: apply a diagonal contrast curve on the mask.\nBeware of artifacts!\n\nGaussian mask: generate and use a Gaussian blur of the original mask.\nQuick.\n\nSharp mask: generate and use a wavelet on the original mask.\nSlow. !TP_RETINEX_MAP_NONE;None !TP_RETINEX_MEDIAN;Transmission median filter !TP_RETINEX_METHOD;Method !TP_RETINEX_METHOD_TOOLTIP;Low = Reinforce low light.\nUniform = Equalize action.\nHigh = Reinforce high light.\nHighlights = Remove magenta in highlights. !TP_RETINEX_MLABEL;Restored data Min=%1 Max=%2 !TP_RETINEX_MLABEL_TOOLTIP;The values should be close to Min=0 Max=32768 (log mode) but other values are possible.You can adjust ‘Clip restored data (gain)’ and ‘Offset’ to normalize.\nRecovers image data without blending !TP_RETINEX_NEIGHBOR;Radius !TP_RETINEX_NEUTRAL;Reset !TP_RETINEX_NEUTRAL_TIP;Reset all sliders and curves to their default values. !TP_RETINEX_OFFSET;Offset (brightness) !TP_RETINEX_SCALES;Gaussian gradient !TP_RETINEX_SCALES_TOOLTIP;If slider at 0, all iterations are identical.\nIf > 0 Scale and radius are reduced when iterations increase, and conversely. !TP_RETINEX_SETTINGS;Settings !TP_RETINEX_SKAL;Scale !TP_RETINEX_SLOPE;Free gamma slope !TP_RETINEX_STRENGTH;Strength !TP_RETINEX_THRESHOLD;Threshold !TP_RETINEX_THRESHOLD_TOOLTIP;Limits in/out.\nIn = image source,\nOut = image gauss. !TP_RETINEX_TLABEL;TM Datas Min=%1 Max=%2 Mean=%3 Sigma=%4 !TP_RETINEX_TLABEL2;TM Effective Tm=%1 TM=%2 !TP_RETINEX_TLABEL_TOOLTIP;ransmission map result.\nMin and Max are used by Variance.\nTm=Min TM=Max of Transmission Map.\nYou can normalize the results with the threshold slider. !TP_RETINEX_TRANF;Transmission !TP_RETINEX_TRANSMISSION;Transmission map !TP_RETINEX_TRANSMISSION_TOOLTIP;Transmission according to transmission.\nAbscissa: transmission from negative values (min), mean, and positives values (max).\nOrdinate: amplification or reduction. !TP_RETINEX_UNIFORM;Uniform !TP_RETINEX_VARIANCE;Contrast !TP_RETINEX_VARIANCE_TOOLTIP;Low variance increase local contrast and saturation, but can lead to artifacts. !TP_RETINEX_VIEW;Process !TP_RETINEX_VIEW_MASK;Mask !TP_RETINEX_VIEW_METHOD_TOOLTIP;Standard - Normal display.\nMask - Displays the mask.\nUnsharp mask - Displays the image with a high radius unsharp mask.\nTransmission - Auto/Fixed - Displays the file transmission-map, before any action on contrast and brightness.\n\nAttention: the mask does not correspond to reality, but is amplified to make it more visible. !TP_RETINEX_VIEW_NONE;Standard !TP_RETINEX_VIEW_TRAN;Transmission - Auto !TP_RETINEX_VIEW_TRAN2;Transmission - Fixed !TP_SPOT_COUNTLABEL;%1 point(s) !TP_SPOT_DEFAULT_SIZE;Default spot size !TP_SPOT_ENTRYCHANGED;Point changed !TP_SPOT_HINT;Click on this button to be able to operate on the preview area.\n\nTo edit a spot, hover the white mark locating an edited area, making the editing geometry appear.\n\nTo add a spot, press Ctrl and left mouse button, drag the circle (Ctrl key can be released) to a source location, then release the mouse button.\n\nTo move the source or destination spot, hover its center then drag it.\n\nThe inner circle (maximum effect area) and the "feather" circle can be resized by hovering them (the circle becomes orange) and dragging it (the circle becomes red).\n\nWhen the changes are done, right click outside any spot to end the Spot editing mode, or click on this button again. !TP_SPOT_LABEL;Spot Removal !TP_VIBRANCE_CURVEEDITOR_SKINTONES;HH !TP_VIBRANCE_CURVEEDITOR_SKINTONES_LABEL;Skin-tones !TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE1;Red/Purple !TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE2;Red !TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE3;Red/Yellow !TP_VIBRANCE_CURVEEDITOR_SKINTONES_RANGE4;Yellow !TP_VIBRANCE_LABEL;Vibrance !TP_VIBRANCE_PASTELS;Pastel tones !TP_VIBRANCE_PASTSATTOG;Link pastel and saturated tones !TP_VIBRANCE_PSTHRESHOLD;Pastel/saturated tones threshold !TP_VIBRANCE_PSTHRESHOLD_SATTHRESH;Saturation threshold !TP_VIBRANCE_PSTHRESHOLD_TOOLTIP;The vertical axis represents pastel tones at the bottom and saturated tones at the top.\nThe horizontal axis represents the saturation range. !TP_VIBRANCE_PSTHRESHOLD_WEIGTHING;Pastel/saturated transition's weighting !TP_VIBRANCE_SATURATED;Saturated Tones !TP_WAVELET_BALCHROM;Equalizer Color !TP_WAVELET_BALLUM;Denoise equalizer White-Black !TP_WAVELET_BL;Blur levels !TP_WAVELET_BLCURVE;Blur by levels !TP_WAVELET_BLURFRAME;Blur !TP_WAVELET_BLUWAV;Attenuation response !TP_WAVELET_CBENAB;Toning and Color balance !TP_WAVELET_CB_TOOLTIP;With high values you can create special effects, similar to those achieved with the Chroma Module, but focused on the residual image\nWith moderate values you can manually correct the white balance !TP_WAVELET_CHROFRAME;Denoise chrominance !TP_WAVELET_CHROMAFRAME;Chroma !TP_WAVELET_CHROMCO;Chrominance Coarse !TP_WAVELET_CHROMFI;Chrominance Fine !TP_WAVELET_CHRO_TOOLTIP;Sets the wavelet level which will be the threshold between saturated and pastel colors.\n1-x: saturated\nx-9: pastel\n\nIf the value exceeds the amount of wavelet levels you are using then it will be ignored. !TP_WAVELET_CHRWAV;Blur chroma !TP_WAVELET_CHR_TOOLTIP;Adjusts chroma as a function of "contrast levels" and "chroma-contrast link strength" !TP_WAVELET_CLA;Clarity !TP_WAVELET_CLARI;Sharp-mask and Clarity !TP_WAVELET_COLORT;Opacity red-green !TP_WAVELET_COMPEXPERT;Advanced !TP_WAVELET_COMPGAMMA;Compression gamma !TP_WAVELET_COMPGAMMA_TOOLTIP;Adjusting the gamma of the residual image allows you to equilibrate the data and histogram. !TP_WAVELET_COMPLEXLAB;Complexity !TP_WAVELET_COMPLEX_TOOLTIP;Standard: shows a reduced set of tools suitable for most processing operations.\nAdvanced: shows the complete set of tools for advanced processing operations !TP_WAVELET_COMPNORMAL;Standard !TP_WAVELET_CONTEDIT;'After' contrast curve !TP_WAVELET_CONTFRAME;Contrast - Compression !TP_WAVELET_CONTRASTEDIT;Finer - Coarser levels !TP_WAVELET_CURVEEDITOR_BL_TOOLTIP;Disabled if zoom > about 300% !TP_WAVELET_CURVEEDITOR_CC_TOOLTIP;Modifies local contrast as a function of the original local contrast (abscissa).\nLow abscissa values represent small local contrast (real values about 10..20).\n50% abscissa represents average local contrast (real value about 100..300).\n66% abscissa represents standard deviation of local contrast (real value about 300..800).\n100% abscissa represents maximum local contrast (real value about 3000..8000). !TP_WAVELET_CURVEEDITOR_CH;Contrast levels=f(Hue) !TP_WAVELET_CURVEEDITOR_CH_TOOLTIP;Modifies each level's contrast as a function of hue.\nTake care not to overwrite changes made with the Gamut sub-tool's hue controls.\nThe curve will only have an effect when wavelet contrast level sliders are non-zero. !TP_WAVELET_CURVEEDITOR_CL;L !TP_WAVELET_CURVEEDITOR_CL_TOOLTIP;Applies a final contrast-luminance curve at the end of the wavelet processing. !TP_WAVELET_CURVEEDITOR_HH;HH !TP_WAVELET_CURVEEDITOR_HH_TOOLTIP;Modifies the residual image hue as a function of hue. !TP_WAVELET_DAUBLOCAL;Wavelet Edge performance !TP_WAVELET_DEN5THR;Guided threshold !TP_WAVELET_DEN12LOW;1 2 Low !TP_WAVELET_DEN12PLUS;1 2 High !TP_WAVELET_DEN14LOW;1 4 Low !TP_WAVELET_DEN14PLUS;1 4 High !TP_WAVELET_DENCONTRAST;Local contrast Equalizer !TP_WAVELET_DENCURV;Curve !TP_WAVELET_DENEQUAL;1 2 3 4 Equal !TP_WAVELET_DENH;Threshold !TP_WAVELET_DENL;Correction structure !TP_WAVELET_DENLH;Guided threshold levels 1-4 !TP_WAVELET_DENLOCAL_TOOLTIP;Use a curve in order to guide the denoising according to the local contrast.\nThe areas are denoised, the structures are maintained !TP_WAVELET_DENMIX_TOOLTIP;The local-contrast reference value used by the guided filter.\nDepending on the image, results can vary depending on whether the noise is measured before or after the noise reduction. These four choices allow you to take into account various combinations of the original and modified (denoised) images to find the best compromise. !TP_WAVELET_DENOISE;Guide curve based on Local contrast !TP_WAVELET_DENOISEGUID;Guided threshold based on hue !TP_WAVELET_DENOISEH;High levels Curve Local contrast !TP_WAVELET_DENOISEHUE;Denoise hue equalizer !TP_WAVELET_DENQUA;Mode !TP_WAVELET_DENSIGMA_TOOLTIP;Adapts the shape of the guide !TP_WAVELET_DENSLI;Slider !TP_WAVELET_DENSLILAB;Method !TP_WAVELET_DENWAVGUID_TOOLTIP;Uses hue to reduce or increase the action of the guided filter !TP_WAVELET_DENWAVHUE_TOOLTIP;Amplify or reduce denoising depending on the color !TP_WAVELET_DETEND;Details !TP_WAVELET_DIRFRAME;Directional contrast !TP_WAVELET_EDEFFECT;Attenuation response !TP_WAVELET_EDEFFECT_TOOLTIP;This slider selects the range of contrast values that will receive the full effect of any adjustment !TP_WAVELET_EDGCONT_TOOLTIP;Adjusting the points to the left decreases contrast, and to the right increases it.\nBottom-left, top-left, top-right and bottom-right represent respectively local contrast for low values, mean, mean+std. dev. and maxima. !TP_WAVELET_EDGEAMPLI;Base amplification !TP_WAVELET_EDGEDETECT;Gradient sensitivity !TP_WAVELET_EDGEDETECTTHR;Threshold low (noise) !TP_WAVELET_EDGEDETECTTHR2;Edge enhancement !TP_WAVELET_EDGEDETECTTHR_TOOLTIP;This slider sets a threshold below which finer details won't be considered as an edge !TP_WAVELET_EDGEDETECT_TOOLTIP;Moving the slider to the right increases edge sensitivity. This affects local contrast, edge settings and noise. !TP_WAVELET_EDGESENSI;Edge sensitivity !TP_WAVELET_EDGREINF_TOOLTIP;Reinforce or reduce the action of the first level, do the opposite to the second level, and leave the rest unchanged. !TP_WAVELET_EDRAD_TOOLTIP;This adjustment controls the local enhancement. A value of zero still has an effect !TP_WAVELET_FINAL;Final Touchup !TP_WAVELET_FINCFRAME;Final local contrast !TP_WAVELET_FINCOAR_TOOLTIP;The left (positive) part of the curve acts on the finer levels (increase).\nThe 2 points on the abscissa represent the respective action limits of finer and coarser levels 5 and 6 (default).\nThe right (negative) part of the curve acts on the coarser levels (increase).\nAvoid moving the left part of the curve with negative values. Avoid moving the right part of the curve with positives values !TP_WAVELET_FINTHR_TOOLTIP;Uses local contrast to reduce or increase the action of the guided filter !TP_WAVELET_GUIDFRAME;Final smoothing (guided filter) !TP_WAVELET_HUESKIN_TOOLTIP;The bottom points set the beginning of the transition zone, and the upper points the end of it, where the effect is at its maximum.\n\nIf you need to move the area significantly, or if there are artifacts, then the white balance is incorrect. !TP_WAVELET_HUESKY_TOOLTIP;The bottom points set the beginning of the transition zone, and the upper points the end of it, where the effect is at its maximum.\n\nIf you need to move the area significantly, or if there are artifacts, then the white balance is incorrect. !TP_WAVELET_ITER;Delta balance levels !TP_WAVELET_ITER_TOOLTIP;Left: increase low levels and reduce high levels,\nRight: reduce low levels and increase high levels. !TP_WAVELET_LABGRID_VALUES;High(a)=%1 High(b)=%2\nLow(a)=%3 Low(b)=%4 !TP_WAVELET_LEVDEN;Level 5-6 denoise !TP_WAVELET_LEVELHIGH;Radius 5-6 !TP_WAVELET_LEVELLOW;Radius 1-4 !TP_WAVELET_LEVELSIGM;Radius !TP_WAVELET_LEVFOUR;Level 5-6 denoise and guided threshold !TP_WAVELET_LIMDEN;Interaction levels 5-6 on levels 1-4 !TP_WAVELET_LIPST;Enhanced algoritm !TP_WAVELET_LOWLIGHT;Coarser levels luminance range !TP_WAVELET_LOWTHR_TOOLTIP;Prevents amplification of fine textures and noise !TP_WAVELET_MEDILEV_TOOLTIP;When you enable Edge Detection, it is recommanded:\n- to disabled low contrast levels to avoid artifacts,\n- to use high values of gradient sensitivity.\n\nYou can modulate the strength with 'refine' from Denoise and Refine. !TP_WAVELET_MERGEC;Merge chroma !TP_WAVELET_MERGEL;Merge luma !TP_WAVELET_MIXCONTRAST;Reference !TP_WAVELET_MIXDENOISE;Denoise !TP_WAVELET_MIXMIX;Mixed 50% noise - 50% denoise !TP_WAVELET_MIXMIX70;Mixed 30% noise - 70% denoise !TP_WAVELET_MIXNOISE;Noise !TP_WAVELET_NOISE_TOOLTIP;If level 4 luminance denoise superior to 50, mode Aggressive is used.\nIf chrominance coarse superior to 20, mode Aggressive is used. !TP_WAVELET_NPTYPE;Neighboring pixels !TP_WAVELET_NPTYPE_TOOLTIP;This algorithm uses the proximity of a pixel and eight of its neighbors. If less difference, edges are reinforced. !TP_WAVELET_OFFSET_TOOLTIP;Offset modifies the balance between low contrast and high contrast details.\nHigh values will amplify contrast changes to the higher contrast details, whereas low values will amplify contrast changes to low contrast details.\nBy using a low Attenuation response value you can select which contrast values will be enhanced. !TP_WAVELET_OLDSH;Algorithm using negatives values !TP_WAVELET_OPACITY;Opacity blue-yellow !TP_WAVELET_OPACITYWL;Local contrast !TP_WAVELET_OPACITYWL_TOOLTIP;Modify the final local contrast at the end of the wavelet treatment.\n\nThe left side represents the smallest local contrast, progressing to the largest local contrast on the right. !TP_WAVELET_PASTEL;Pastel chroma !TP_WAVELET_PROTAB;Protection !TP_WAVELET_QUAAGRES;Aggressive !TP_WAVELET_QUACONSER;Conservative !TP_WAVELET_QUANONE;Off !TP_WAVELET_RADIUS;Radius shadows - highlight !TP_WAVELET_RANGEAB;Range a and b % !TP_WAVELET_RESBLUR;Blur luminance !TP_WAVELET_RESBLURC;Blur chroma !TP_WAVELET_RESBLUR_TOOLTIP;Disabled if zoom > about 500% !TP_WAVELET_SAT;Saturated chroma !TP_WAVELET_SHA;Sharp mask !TP_WAVELET_SHFRAME;Shadows/Highlights !TP_WAVELET_SHOWMASK;Show wavelet 'mask' !TP_WAVELET_SIGM;Radius !TP_WAVELET_SIGMA;Attenuation response !TP_WAVELET_SIGMAFIN;Attenuation response !TP_WAVELET_SIGMA_TOOLTIP;The effect of the contrast sliders is stronger in medium contrast details, and weaker in high and low contrast details.\n With this slider you can control how quickly the effect dampens towards the extreme contrasts.\n The higher the slider is set, the wider the range of contrasts which will get a strong change, and the higher the risk to generate artifacts.\n .The lower it is, the more the effect will be pinpointed towards a narrow range of contrast values !TP_WAVELET_SOFTRAD;Soft radius !TP_WAVELET_STREND;Strength !TP_WAVELET_THRDEN_TOOLTIP;Generates a stepped curve used to guide the noise reduction as a function of local contrast. The denoise will be applied to uniform low local-contrast areas. Areas with detail (higher local contrast) will be preserved. !TP_WAVELET_THREND;Local contrast threshold !TP_WAVELET_THRESHOLD;Finer levels !TP_WAVELET_THRESHOLD2;Coarser levels !TP_WAVELET_THRESHOLD2_TOOLTIP;Only levels from the chosen value to the selected number of ‘wavelet levels’ will be affected by the Shadow luminance range. !TP_WAVELET_THRESHOLD_TOOLTIP;Only levels below and including the chosen value will be affected by the Highlight luminance range. !TP_WAVELET_THRESWAV;Balance threshold !TP_WAVELET_TMEDGS;Edge stopping !TP_WAVELET_TMSCALE;Scale !TP_WAVELET_TMSTRENGTH;Compression strength !TP_WAVELET_TMSTRENGTH_TOOLTIP;Control the strength of tone mapping or contrast compression of the residual image. !TP_WAVELET_TMTYPE;Compression method !TP_WAVELET_TONFRAME;Excluded colors !TP_WAVELET_USH;None !TP_WAVELET_USHARP;Clarity method !TP_WAVELET_USHARP_TOOLTIP;Origin : the source file is the file before Wavelet.\nWavelet : the source file is the file including wavelet threatment !TP_WAVELET_USH_TOOLTIP;If you select Sharp-mask, you can choose any level (in Settings) from 1 to 4 for processing.\nIf you select Clarity, you can choose any level (in Settings) between 5 and Extra. !TP_WAVELET_WAVLOWTHR;Low contrast threshold !TP_WAVELET_WAVOFFSET;Offset !TP_WBALANCE_AUTOITCGREEN;Temperature correlation !TP_WBALANCE_AUTOOLD;RGB grey !TP_WBALANCE_AUTO_HEADER;Automatic !TP_WBALANCE_EQBLUERED_TOOLTIP;Allows to deviate from the normal behavior of "white balance" by modulating the blue/red balance.\nThis can be useful when shooting conditions:\na) are far from the standard illuminant (e.g. underwater),\nb) are far from conditions where calibrations were performed,\nc) where the matrices or ICC profiles are unsuitable. !TP_WBALANCE_FLUO1;F1 - Daylight !TP_WBALANCE_FLUO2;F2 - Cool White !TP_WBALANCE_FLUO3;F3 - White !TP_WBALANCE_FLUO4;F4 - Warm White !TP_WBALANCE_FLUO5;F5 - Daylight !TP_WBALANCE_FLUO6;F6 - Lite White !TP_WBALANCE_FLUO7;F7 - D65 Daylight Simulator !TP_WBALANCE_FLUO8;F8 - D50 / Sylvania F40 Design !TP_WBALANCE_FLUO9;F9 - Cool White Deluxe !TP_WBALANCE_FLUO10;F10 - Philips TL85 !TP_WBALANCE_FLUO11;F11 - Philips TL84 !TP_WBALANCE_FLUO12;F12 - Philips TL83 !TP_WBALANCE_GTI;GTI !TP_WBALANCE_HMI;HMI !TP_WBALANCE_JUDGEIII;JudgeIII !TP_WBALANCE_LAMP_HEADER;Lamp !TP_WBALANCE_LED_CRS;CRS SP12 WWMR16 !TP_WBALANCE_LED_LSI;LSI Lumelex 2040 !TP_WBALANCE_SOLUX47;Solux 4700K (vendor) !TP_WBALANCE_SOLUX47_NG;Solux 4700K (Nat. Gallery) !TP_WBALANCE_STUDLABEL;Correlation factor: %1 !TP_WBALANCE_STUDLABEL_TOOLTIP;Display calculated Student correlation.\nLower values are better, where <0.005 is excellent,\n<0.01 is good, and >0.5 is poor.\nLow values do not mean that the white balance is good:\nif the illuminant is non-standard the results can be erratic.\nA value of 1000 means previous calculations are used and\nthe resultsare probably good.