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Synchronize translation files with default

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This commit is contained in:
Lawrence Lee
2025-03-29 15:52:33 -07:00
parent ddf7bd85ee
commit 01fcd347df
23 changed files with 1662 additions and 276 deletions
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rtdata/languages/Polish
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@@ -2212,7 +2212,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!HISTORY_MSG_642;Local - radius SH
!HISTORY_MSG_643;Local - Blur SH
!HISTORY_MSG_644;Local - inverse SH
!HISTORY_MSG_645;Local - SD - ab-L balance
!HISTORY_MSG_645;Local - SD - Lightness-chroma balance
!HISTORY_MSG_646;Local - Exp mask chroma
!HISTORY_MSG_647;Local - Exp mask gamma
!HISTORY_MSG_648;Local - Exp mask slope
@@ -2426,7 +2426,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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 - SD - C-H balance
!HISTORY_MSG_868;Local - SD - Hue-Chroma balance
!HISTORY_MSG_869;Local - Denoise by level
!HISTORY_MSG_870;Local - Wavelet mask curve H
!HISTORY_MSG_871;Local - Wavelet mask curve C
@@ -2878,11 +2878,26 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!HISTORY_MSG_LOCAL_FEATHERVIB;Local - Vib Gradient feather
!HISTORY_MSG_LOCAL_FEATHERWAV;Local - Wav Gradient feather
!HISTORY_MSG_LOCAL_GAMUTMUNSEL;Local - SC - Avoid Color Shift
!HISTORY_MSG_LOCAL_GHSMETHOD;Local - GHS - Method
!HISTORY_MSG_LOCAL_GHS_B;Local - GHS - Local intensity
!HISTORY_MSG_LOCAL_GHS_BLP;Local - GHS - Black point
!HISTORY_MSG_LOCAL_GHS_CHRO;Local - GHS - Lab chromaticity factor
!HISTORY_MSG_LOCAL_GHS_D;Local - GHS - Stretch factor
!HISTORY_MSG_LOCAL_GHS_HLP;Local - GHS - White point
!HISTORY_MSG_LOCAL_GHS_HP;Local - GHS - Protect highlights
!HISTORY_MSG_LOCAL_GHS_INV;Local - GHS - Inverse
!HISTORY_MSG_LOCAL_GHS_LC;Local - GHS - Local Contrast
!HISTORY_MSG_LOCAL_GHS_LP;Local - GHS - Protect shadows
!HISTORY_MSG_LOCAL_GHS_MID;Local - GHS - Midtones
!HISTORY_MSG_LOCAL_GHS_SLOPE;Local - GHS - Lab slope factor
!HISTORY_MSG_LOCAL_GHS_SMOOTH;Local - GHS - Highlight attenuation
!HISTORY_MSG_LOCAL_GHS_SP;Local - GHS - Symmetry point
!HISTORY_MSG_LOCAL_LOGCIE12;Local - CIECAM - Log encoding
!HISTORY_MSG_LOCAL_LOG_BLACKS;Local - Log Blacks distribution
!HISTORY_MSG_LOCAL_LOG_COMPR;Local - Log Compress brightness
!HISTORY_MSG_LOCAL_LOG_SAT;Local - Log Saturation control
!HISTORY_MSG_LOCAL_LOG_WHITES;Local - Log Whites distribution
!HISTORY_MSG_LOCAL_NLITER;Local - Nlmeans - Iterations
!HISTORY_MSG_LOCAL_OFFSETWAV;Local Wav offset
!HISTORY_MSG_LOCAL_PROCESSWAV;Local - Wavelets - Show modifications
!HISTORY_MSG_LOCAL_QJMETHOD;Local - CIECAM Tone mapping operator Q and J
@@ -3386,7 +3401,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!TP_LOCALLAB_ACTIVSPOT;Enable Spot
!TP_LOCALLAB_ADJ;Equalizer Color
!TP_LOCALLAB_AMOUNT;Amount
!TP_LOCALLAB_ARTIF;Shape detection
!TP_LOCALLAB_ARTIF;ΔE Shape detection
!TP_LOCALLAB_ARTIF_TOOLTIP;ΔE scope threshold increases the range of ΔE scope. High values are for very wide gamut images.\nIncreasing ΔE decay can improve shape detection, but can also reduce the scope.
!TP_LOCALLAB_AUTOGRAY;Auto mean luminance (Yb%)
!TP_LOCALLAB_AUTOGRAYCIE;Automatic
@@ -3396,9 +3411,9 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!TP_LOCALLAB_AVOIDMUN_TOOLTIP;Munsell correction always disabled when Jz or CAM16 is used.
!TP_LOCALLAB_AVOIDNEG;Pre-filter zero and negative values
!TP_LOCALLAB_AVOIDRAD;Soft radius
!TP_LOCALLAB_BALAN;ab-L balance (ΔE)
!TP_LOCALLAB_BALAN;Lightness-Chroma balance
!TP_LOCALLAB_BALANEXP;Laplacian balance
!TP_LOCALLAB_BALANH;C-H balance (ΔE)
!TP_LOCALLAB_BALANH;Hue-Chroma balance
!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
@@ -3606,12 +3621,12 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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_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 'Lightness-chroma balance (ΔE)'
!TP_LOCALLAB_EXPCONTRASTPYR_TOOLTIP;See the documentation for Wavelet Levels.\nThere are some differences in the Selective Editing 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 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 &amp; hue gradients, and 'Merge file'), Exposure (luminance grad.), Exposure Mask (luminance grad.), Shadows/Highlights (luminance grad.), Vibrance (luminance, chrominance &amp; hue gradients), Local contrast &amp; wavelet pyramid (local contrast grad.).\nFeather is located in Settings.
!TP_LOCALLAB_EXPGRADCOL_TOOLTIP;A graduated filter is available in Color & Light (luminance, chrominance & hue gradients, and 'Merge file'), Exposure (luminance gradient), Exposure Mask (luminance gradient), Shadows/Highlights (luminance gradient), Vibrance (luminance, chrominance & hue gradients), Local contrast & wavelet pyramid (local contrast gradient).\nThe graduated filter preview is only accurate when the image is viewed in fit-to-screen mode.\n\nThe graduated filter is only available in Full image or Global mode.
!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.
@@ -3656,6 +3671,51 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!TP_LOCALLAB_GAMUTXYZABSO;XYZ Absolute
!TP_LOCALLAB_GAMUTXYZRELA;XYZ Relative
!TP_LOCALLAB_GAMW;Gamma (wavelet pyramids)
!TP_LOCALLAB_GHSBPWP;Clipped pixel count - Shadows:%1 Highlights:%2
!TP_LOCALLAB_GHSBPWPVALUE;Pixel values - Darkest:%1 Lightest:%2
!TP_LOCALLAB_GHSFRA;Stretch Settings
!TP_LOCALLAB_GHSHUE;Hue (HSL)
!TP_LOCALLAB_GHSLAB;Lightness & chromaticity (Lab)
!TP_LOCALLAB_GHSLABFRA;Lab settings
!TP_LOCALLAB_GHSLUM;Luminance (HSL)
!TP_LOCALLAB_GHSRGBLUM;RGB Luminance
!TP_LOCALLAB_GHSRGBSTD;RGB Standard
!TP_LOCALLAB_GHSSAT;Saturation (HSL)
!TP_LOCALLAB_GHS_B;Local intensity (b)
!TP_LOCALLAB_GHS_BLACKPOINT_FRAME;Black point/White point/Highlights
!TP_LOCALLAB_GHS_BLP;Black point (BP linear)
!TP_LOCALLAB_GHS_BLP_TOOLTIP;Sets the Black point for a linear stretch of the image.\n * For negatives slider values, in GHS normal, shadows are raised linearly to avoid excessive noise build-up and facilitate GHS work.\n * For positives slider values, the histogram is shifted to the left. For Raw images, you can also use Raw-Tab > Raw Black Points Dehaze, which is more precise.\n * Contrast gained by performing the linear stretch will be evenly distributed over the image.\n\n * You can adjust a linear black point offset to either:\n - account for noise in the deep shadows.\n - adjust the histogram.\n\n * It is recommended to adjust these sliders before the main GHS sliders to avoid clipping data. A very low Stretch factor (D) value (0.001 by default) is recommended for performing this adjustment.\n * The label 'Clipped pixel count Shadows:x Highlights=y' shows you the number of pixels that would be clipped without adjusting the two sliders.\n * The label Pixel values - Darkest:w Lightest:z shows you the minimum and maximum values in the range [0, 1].\n\n * In Inverse GHS mode the behavior is reversed and there are possible interactions with the White point.
!TP_LOCALLAB_GHS_BPFRAME_TOOLTIP;Sets the Black point (BP linear), White point (WP linear) and Highlight for a linear stretch of the image.\n\n * Black Point (BP linear) and White Point (WP linear) settings are only available if Stretch factor (D) is between 0.001 and 0.002 so as to not affect the histogram.\n\n * When Stretch factor is 0.002 or less, all stretch settings except for Black point and White point have no effect.\n\n * Black point (BP linear) and White point (WP linear) settings are sensitive to the general settings upstream of GHS: Highlight reconstruction, White balance and RAW processes.\n\n * To have relevant Black Point (BP linear) and White Point (WP linear) settings, the entire image must be analyzed. It is recommended to use 'Fit whole image to screen - Shortcut Alt-f'.
!TP_LOCALLAB_GHS_B_TOOLTIP;This parameter controls how tightly focused the stretch is around the Symmetry point (SP) by changing the form of the transform itself:\n * For concentrated stretches (such as initial stretches on linear images) a large 'b' factor should be employed to focus a stretch within a histogram peak while de-focusing the stretch away from the histogram peak.\n * For adjustment of non-linear images, lower 'b' parameters should be employed to distribute contrast and brightness more evenly.\n * Large positive values of 'b' can be thought of as a histogram widener, i.e. spreading the histogram wider about the focus point, SP.\n * By contrast, lower values of 'b' tend to shift the histogram to a brighter or dimmer position without affecting its width too greatly.\n * As a general rule, the level of 'b' employed will decrease as a stretch sequence nears completion, although larger 'b' values can still be employed for precise placement of additional contrast.
!TP_LOCALLAB_GHS_CHRO;Chromaticity Lab factor (C)
!TP_LOCALLAB_GHS_CHRO_TOOLTIP;GHS chromaticity - compensate large stretches
!TP_LOCALLAB_GHS_CURVE_TOOLTIP;Shows the 'S' curve generated by GHS calculations. Mainly for educational purposes.\n\n * The curve only reacts to the adjusters and cannot be modified directly.
!TP_LOCALLAB_GHS_D;Stretch factor (D)
!TP_LOCALLAB_GHS_D_TOOLTIP;This parameter controls the amount of stretch. If the Stretch factor is set to zero, there is no stretch. In other words, the transformation is the identity transformation.\n\n * Black Point (BP linear) and White Point (WP linear) settings are only available if Stretch factor (D) is between 0.001 and 0.002.
!TP_LOCALLAB_GHS_GHSDIAG;GHS Curve Visualization
!TP_LOCALLAB_GHS_HLP;White point (WP linear)
!TP_LOCALLAB_GHS_HLP_TOOLTIP;Sets the White point for a linear stretch of the image. Any pixel with value greater than the White point input will be clipped and the data lost.\n * Contrast gained by performing the linear stretch will be evenly distributed over the image, which will be brightened. Pixels with values greater than the White point will appear white and have a value of 1.0.\n * Setting this parameter to a value greater than 1 will extend the dynamic range at the high end.\n * The 'Highlight reconstruction' method has a very strong impact on the White-point value.\n\n * It is recommended to adjust this slider before the main GHS sliders to avoid clipping data. A very low Stretch factor (D) value (0.001 by default) is recommended for performing this adjustment.\n * The label 'Clipped pixel count - Shadows:x Highlights=y' shows you the number of pixels that would be clipped without adjusting the two sliders.\n * The label Pixel values - Darkest:w Lightest:z shows you the minimum and maximum values in the range [0, 1].\n\n * In Inverse GHS mode the behavior is reversed and there are possible interactions with the Black point.
!TP_LOCALLAB_GHS_HP;Protect highlights (HP)
!TP_LOCALLAB_GHS_HP_TOOLTIP;Sets a value above which the stretch is modified to preserve contrast in the highlights. This is done by performing a linear stretch of the data above the 'HP' level by reserving contrast from the rest of the image. Moving the HP level towards the current setting of SP increases both the scope (range) and the amount of this contrast reservation. The net effect is to push the overall stretch to lower brightness levels while keeping the contrast and definition in the highlights. The amount of contrast reserved for the highlights is such that the continuity of the stretch is preserved.\n * This parameter must be at most 1 and no less than the Symmetry point.\n * The adjuster will automatically limits the maximum value to the Symmetry Point (SP).\n\n * Using Highlight attenuation helps to reinforce the action of Protect highlights (HP).
!TP_LOCALLAB_GHS_INV;Inverse GHS
!TP_LOCALLAB_GHS_INV_TOOLTIP;The inverse GHS is useful for working in negative space. It adds contrast on the far right and left of the histogram, brightening the deep shadows, darkening the bright highlights, and squeezing the histogram to the middle.\n\n * The Generalized Hyperbolic inverse transformation allows you to recover your original image, subject to mathematical precision, but you can use it for other purposes.\n\n * If the White point and Black point were changed in normal mode, they will likely need to be readjusted. The White point often needs to be readjusted lower. There is interaction between the two settings.
!TP_LOCALLAB_GHS_LC;Value (LC)
!TP_LOCALLAB_GHS_LC_FRAME;Stretch Regularization & Midtones
!TP_LOCALLAB_GHS_LC_TOOLTIP;Slightly increases local contrast that was weakened by stretching.\nCan be completed by other tools specific to local contrast such as wavelets.\n\nWhen Stretch factor is 0.002 or less, Stretch Regularization & Midtones is disabled.
!TP_LOCALLAB_GHS_LP;Protect shadows (LP)
!TP_LOCALLAB_GHS_LP_TOOLTIP;Sets a value below which the stretch is modified to preserve contrast in the shadows/lowlights. This is done by performing a linear stretch of the data below the 'LP' level by reserving contrast from the rest of the image. Moving the LP level towards the current setting of SP changes both the scope (range) and the amount of this contrast reservation. The net effect is to push the overall stretch to higher brightness levels while keeping the contrast and definition in the background. The amount of contrast reserved for the lowlights is such that the continuity of the stretch is preserved.\n * This parameter must be at least 0 and no greater than the Symmetry point.\n * The adjuster will automatically limit the maximum value to the Symmetry Point (SP).\n\n * Using Black point - negative values - when possible, allows to change both the value of Symmetry point (SP) and the action of Protect shadows (LP).
!TP_LOCALLAB_GHS_METHOD_TOOLTIP;The Generalized Hyperbolic Stretch (GHS) process allows you to transform the values of pixels in your image to improve the representation of the underlying data for human visualisation.\nThe generalized hyperbolic equations used in the GHS process have five main parameters. This allows significant flexibility in designing the "shape" of the transformation.\n\nTypical uses of pixel intensity transformations include:\n * Initial stretch of pixel data from linear state.\n * Addition of contrast to key areas of the image.\n * Overall brightening or darkening of the image.\n * Adjustment of the image dynamic range.\n * Adjustment of pixel data in RGB Luminance, RGB standard, Luminance - chromaticity (Lab/Lch), Luminance (HSL), Saturation (HSL), or Hue (HSL) channels.\n\n * For a better results, you can proceed in several steps, creating 2 or more RT-spots each superimposed with the GHS tool. For each of the RT-Spots, the Symmetry point (SP) base value will be different. Use the histogram peak to position the SP value.\n * For example, you can start the system in RGB mode (1st Spot), then the 2nd Spot in RGB mode with a different SP, and the 3rd in Saturation or Hue mode.\n * You can mix RT-spots in 'Normal' mode and 'Inverse' mode to restore contrast balance.\n * Full Image allows you to limit the effect to specific colors based on the deltaE.
!TP_LOCALLAB_GHS_MID;Midtones
!TP_LOCALLAB_GHS_MID_TOOLTIP;Adjusts midtone balance after GHS transformation.\n Can be used to rebalance the midtones of the image after stretching.\n\nWhen Stretch factor is 0.002 or less, Stretch Regularization & Midtones is disabled
!TP_LOCALLAB_GHS_MODECUR;GHS
!TP_LOCALLAB_GHS_MODELIN;Linear
!TP_LOCALLAB_GHS_SIMUL_TOOLTIP;Gives a representation of the GHS function.
!TP_LOCALLAB_GHS_SLOPE;Slope Lab factor (S)
!TP_LOCALLAB_GHS_SLOPE_TOOLTIP;Changes the slope of the Lab transform to improve shadow rendering.
!TP_LOCALLAB_GHS_SMOOTH;Highlight attenuation
!TP_LOCALLAB_GHS_SMOOTH_TOOLTIP;Smooth and soften highlight areas. Amplifies 'Protect highlights (HP)' action.
!TP_LOCALLAB_GHS_SP;Symmetry point (SP)
!TP_LOCALLAB_GHS_SP_TOOLTIP;The default value of 0.015 is suitable for the majority of images.\n * This is the key balance value of the GHS system.\n * Sets the focus point around which the stretch is applied - contrast will be distributed symmetrically about SP.\n * While 'b' provides the degree of focus of the stretch, SP determines where that focus is applied.\n * SP should generally be placed within a histogram peak so that the stretch will widen and lower the peak by adding the most contrast in the stretch at that point. Pixel values will move away from the SP location.
!TP_LOCALLAB_GRADANG;Gradient angle
!TP_LOCALLAB_GRADANG_TOOLTIP;Rotation angle in degrees: -180 0 +180.
!TP_LOCALLAB_GRADFRA;Graduated Filter Mask
@@ -3671,7 +3731,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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_GRALWFRA;Graduated filter (local contrast: Full image & Global)
!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
@@ -3918,6 +3978,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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_NLDENOISENLITER_TOOLTIP;Run multiple iterations of Nlmeans. Results are often better with multiple iterations and low Strength.
!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.
@@ -3925,6 +3986,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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_NLITER;Iterations
!TP_LOCALLAB_NLLUM;Strength
!TP_LOCALLAB_NLPAT;Maximum patch size
!TP_LOCALLAB_NLRAD;Maximum radius size
@@ -4032,12 +4094,13 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!TP_LOCALLAB_SETTINGS;Settings
!TP_LOCALLAB_SH1;Shadows Highlights
!TP_LOCALLAB_SH2;Equalizer
!TP_LOCALLAB_SH3;Generalized Hyperbolic Stretch
!TP_LOCALLAB_SHADEX;Shadows
!TP_LOCALLAB_SHADEXCOMP;Shadow compression
!TP_LOCALLAB_SHADHIGH;Shadows/Highlights & Tone Equalizer
!TP_LOCALLAB_SHADHIGH;Shadows/Highlights, Equalizer & GHS
!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 &amp; 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_SHADOWHIGHLIGHT_TOOLTIP;Adjust shadows and highlights either with 'Shadows Highlights' sliders, 'Tone Equalizer', or 'Generalized Hyperbolic Stretch' (GHS).\nCan be used instead of, or in conjunction with the Exposure module, or for GHS as a tone mapper.
!TP_LOCALLAB_SHAMASKCOL;Shadows
!TP_LOCALLAB_SHAPETYPE;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.
@@ -4082,7 +4145,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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_SH_TOOLNAME;Shadows/Highlights, Equalizer & GHS
!TP_LOCALLAB_SIGBLACKSSCIE;Blacks distribution
!TP_LOCALLAB_SIGCIE;Sigmoid
!TP_LOCALLAB_SIGFRA;Sigmoid Q & Slope based
@@ -4117,7 +4180,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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_SLOPESMOOTH;Gray balance (Slope)
!TP_LOCALLAB_SLOPESMOOTHB;Blue Slope
!TP_LOCALLAB_SLOPESMOOTHG;Green balance (Slope)
!TP_LOCALLAB_SLOPESMOOTHG;Green Slope
!TP_LOCALLAB_SLOPESMOOTHR;Red Slope
!TP_LOCALLAB_SLOPESMOOTRCB;Blue balance (TRC)
!TP_LOCALLAB_SLOPESMOOTRCG;Green balance (TRC)
@@ -4173,7 +4236,7 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!TP_LOCALLAB_TARGET_GRAY;Mean luminance (Yb%)
!TP_LOCALLAB_TE_PIVOT;Pivot (Ev)
!TP_LOCALLAB_THRES;Threshold structure
!TP_LOCALLAB_THRESDELTAE;ΔE scope threshold
!TP_LOCALLAB_THRESDELTAE;Range
!TP_LOCALLAB_THRESRETI;Threshold
!TP_LOCALLAB_THRESWAV;Balance threshold
!TP_LOCALLAB_TLABEL;TM Min=%1 Max=%2 Mean=%3 Sig=%4
@@ -4192,10 +4255,10 @@ ZOOMPANEL_ZOOMOUT;Oddal\nSkrót: <b>-</b>
!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;Symmetry X & Y
!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_TRANSITVALUE;Value
!TP_LOCALLAB_TRANSITWEAK;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 &amp; 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