; docformat = 'rst' ; ; NAME: ; cgImgScl ; ; PURPOSE: ; This function scales an image using the same keywords and scaling available in ; cgImage and cgStretch. ; ;******************************************************************************************; ; ; ; Copyright (c) 2012, by Fanning Software Consulting, Inc. All rights reserved. ; ; ; ; Redistribution and use in source and binary forms, with or without ; ; modification, are permitted provided that the following conditions are met: ; ; ; ; * Redistributions of source code must retain the above copyright ; ; notice, this list of conditions and the following disclaimer. ; ; * Redistributions in binary form must reproduce the above copyright ; ; notice, this list of conditions and the following disclaimer in the ; ; documentation and/or other materials provided with the distribution. ; ; * Neither the name of Fanning Software Consulting, Inc. nor the names of its ; ; contributors may be used to endorse or promote products derived from this ; ; software without specific prior written permission. ; ; ; ; THIS SOFTWARE IS PROVIDED BY FANNING SOFTWARE CONSULTING, INC. ''AS IS'' AND ANY ; ; EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ; ; OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT ; ; SHALL FANNING SOFTWARE CONSULTING, INC. BE LIABLE FOR ANY DIRECT, INDIRECT, ; ; INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED ; ; TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; ; ; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ; ; ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ; ; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS ; ; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ; ;******************************************************************************************; ;+ ; This function scales an image using the same keywords and scaling available in ; cgImage and cgStretch. Set the `Stretch` keyword for the types of image scaling ; or stretching available. ; ; :Categories: ; Graphics, Utilities ; ; :Returns: ; Returns a scaled image. ; ; :Params: ; image: in, required ; The input image that is to be scaled. Only 2D images can be scaled, although ; true-color images can be resized. ; xsize: in, optional ; The output X size of the image. ; ysize: in, optional ; The output Y size of the image. ; ; :Keywords: ; bottom: in, optional, type=integer, default=0 ; If the `SCALE` keyword is set, the image is scaled before display so that all ; displayed pixels have values greater than or equal to `BOTTOM` and less than ; or equal to `TOP`. ; beta: in, optional, type=float, default=3.0 ; The beta factor in a Hyperpolic Sine stretch. ; clip: in, optional, type=float, default=2 ; A number between 0 and 50 that indicates the percentage of pixels to clip ; off either end of the image histogram before performing a linear stretch. ; exclude: in, optional, type=numeric ; The value to exclude in a standard deviation stretch. ; exponent: in, optional, type=float, default=4.0 ; The logarithm exponent in a logarithmic stretch. ; gamma: in, optional, type=float, default=1.5 ; The gamma factor in a gamma stretch. ; interpolate: in, optional, type=boolean, default=0 ; Set this keyword to interpolate with bilinear interpolation the display image as it ; is sized to its final position in the display window. Interpolation will potentially ; create image values that do not exist in the original image. The default is to do no ; interpolation, so that image values to not change upon resizing. Interpolation can ; result in smoother looking final images. ; maxvalue: in, optional, type=varies ; If this value is defined, the data is linearly scaled between `MINVALUE` ; and `MAXVALUE`. `MAXVALUE` is set to `MAX`(image) by default. Setting this ; keyword to a value automatically sets `SCALE` to 1. If the maximum value of the ; image is greater than 255, this keyword is defined and SCALE=1. ; mean: in, optional, type=float, default=0.5 ; The mean factor in a logarithmic stretch. ; minus_one: in, optional, type=boolean, default=0 ; The value of this keyword is passed along to the cgResizeImage ; command. It prevents cgResizeImage from adding an extra row and ; column to the resulting array, which can be a problem with ; small image arrays. ; minvalue: in, optional, type=varies ; If this value is defined, the data is linearly scaled between MINVALUE ; and `MAXVALUE`. `MINVALUE` is set to `MIN`(image) by default. Setting this ; keyword to a value automatically sets SCALE=1. If the minimum value of the ; image is less than 0, this keyword is defined and SCALE=1. ; missing_index: in, optional, type=integer, default=255 ; The index of the missing color in the final byte scaled image. ; missing_value: in, optional, type=integer ; The number that represents the missing value in the image. ; multiplier: in, optional, type=float ; The multiplication factor in a standard deviation stretch. The standard deviation ; is multiplied by this factor to produce the thresholds for a linear stretch. ; ncolors: in, optional, type=integer, default=256 ; If this keyword is supplied, the `TOP` keyword is ignored and the TOP keyword ; is set equal to NCOLORS-1. This keyword is provided to make cgImgScl easier ; to use with the color-loading programs such as cgLOADCT:: ; ; cgLoadCT, 5, NColors=100, Bottom=100 ; scaled = cgImgScl(image, NColors=100, Bottom=100) ; ; Setting this keyword to a value automatically sets SCALE=1 and STRETCH='LINEAR', if not ; defined otherwise. Available only with 2D images. ; negative: in, optional, type=boolean, default=0 ; Set this keyword if you want to display the image with a negative or reverse stretch. ; scale: in, optional, type=boolean, default=0 ; Set this keyword to byte scale the image before display. If this keyword is not set, ; the image is not scaled before display. This keyword will be set automatically by using ; any of the keywords normally associated with byte scaling an image. ; stretch: in, optional, type=integer/string, default=0 ; The type of scaling performed prior to display. May be specified as a number ; or as a string (e.g, 3 or "Log"). Available only with 2D images. If Min(image) ; is less than zero or Max(image) is greater than 255, then the default value for ; stretch is 1. ; ; Number Type of Stretch:: ; 0 None No scaling whatsoever is done. ; 1 Linear scaled = BytScl(image, MIN=minValue, MAX=maxValue) ; 2 Linear 2% A histogram stretch, with a percentage of pixels clipped at both the top and bottom ; 3 Gamma scaled = GmaScl(image, MIN=minValue, MAX=maxValue, Gamma=gamma) ; 4 Log scaled = LogScl(image, MIN=minValue, MAX=maxValue, Mean=mean, Exponent=exponent) ; 5 Asinh scaled = AsinhScl(image, MIN=minValue, MAX=maxValue, Beta=beta) ; 6 SquareRoot A linear stretch of the square root histogram of the image values. ; 7 Equalization A linear stretch of the histogram equalized image histogram. ; 8 Gaussian A Gaussian normal function is applied to the image histogram. ; 9 MODIS Scaling done in the differential manner of the MODIS Rapid Response Team ; and implemented in the Coyote Library routine ScaleModis. ; 10 StdDev Standard deviation stretch. scaled = SDevScl(image, MULTIPLIER=2). ; sigma: in, optional, type=float, default=1.0 ; The sigma scale factor in a Gaussian stretch. ; top: in, optional, type=integer, default=255 ; If the `SCALE` keyword is set, the image is scaled before display so that all ; displayed pixels have values greater than or equal to `BOTTOM` and less than ; or equal to `TOP`. ; ; :Examples: ; Used to for image display:: ; IDL> scaledImage = cgImgScl(image, Stretch=4, Exponent=2) ; IDL> cgImage, scaledImage[0:100, 200:400], /Keep_Aspect ; ; :Author: ; FANNING SOFTWARE CONSULTING:: ; David W. Fanning ; 1645 Sheely Drive ; Fort Collins, CO 80526 USA ; Phone: 970-221-0438 ; E-mail: david@idlcoyote.com ; Coyote's Guide to IDL Programming: http://www.idlcoyote.com ; ; :History: ; Change History:: ; Written by David W. Fanning, 21 September 2012. ; Only define MISSING_INDEX value if needed. Change to support TRANSPARENT keyword ; in cgImage. 18 October 2012. DWF. ; Only 2D images can be scaled. 18 October 2012. DWF. ; ; :Copyright: ; Copyright (c) 2012, Fanning Software Consulting, Inc. ;- FUNCTION cgImgScl, image, xsize, ysize, $ BOTTOM=bottom, $ BETA=beta, $ CLIP=clip, $ EXCLUDE=exclude, $ EXPONENT=exponent, $ GAMMA=gamma, $ INTERPOLATE=interpolate, $ MAXVALUE=maxvalue, $ MEAN=mean, $ MINUS_ONE=minus_one, $ MINVALUE=minvalue, $ MISSING_INDEX=missing_index, $ MISSING_VALUE=missing_value, $ MULTIPLIER=multiplier, $ NCOLORS=ncolors, $ NEGATIVE=negative, $ SCALE=scale, $ STRETCH=stretch, $ SIGMA=sigma, $ TOP=top Compile_Opt idl2 ; Error handling. Catch, theError IF theError NE 0 THEN BEGIN Catch, /Cancel ok = cgErrorMsg() RETURN, image ENDIF ; Did the user want to scale the image? ; If either MIN or MAX are set, this implies SCALE=1. ; If min LT 0 or max GT 255, this implies SCALE=1. ; If NCOLORS is used, this implies SCALE=1 and STRETCH='linear', if STRETCH is undefined. IF N_Elements(min) EQ 0 THEN min = Min(image, /NAN) ELSE scale = 1 IF N_Elements(max) EQ 0 THEN max = Max(image, /NAN) ELSE scale = 1 IF (min LT 0) OR (max GT 255) THEN scale = 1 IF N_Elements(top) EQ 0 THEN top = (N_Elements(missing_value) NE 0) ? !D.TABLE_SIZE - 2 : !D.TABLE_SIZE - 1 IF N_Elements(bottom) EQ 0 THEN bottom = 0B IF N_Elements(ncolors) NE 0 THEN BEGIN top = (N_Elements(missing_value) NE 0) ? (ncolors - 2) < 255 : (ncolors - 1) scale = 1 ENDIF ncolors = top-bottom+1 negative = Keyword_Set(negative) scale = Keyword_Set(scale) IF scale THEN BEGIN IF N_Elements(stretch) EQ 0 THEN stretch = 1 ENDIF SetDefaultValue, beta, 3.0 SetDefaultValue, clip, 2 SetDefaultValue, exponent, 4.0 SetDefaultValue, gamma, 1.5 SetDefaultValue, mean, 1.0 SetDefaultValue, negative, 0 SetDefaultValue, sigma, 1.0 SetDefaultValue, stretch, 0 ; Missing index only defined if needed. Change to support transparent images in cgImage. IF N_Elements(missing_value) NE 0 THEN IF N_Elements(missing_index) EQ 0 THEN missing_index = 255 ; Make sure you can specify the type of stretch with a string name. IF Size(stretch, /TNAME) EQ 'STRING' THEN BEGIN stretches = ['None', 'Linear', 'Clip', 'Gamma', 'Log', 'ASinh', $ 'SquareRoot', 'Equalization', 'Gaussian', 'MODIS', 'StdDev'] index = Where(StrUpCase(stretch) EQ StrUpCase(stretches), count) IF count GT 0 THEN stretch=index ELSE Message, 'Cannot find stretch: ' + StrUpCase(stretch) ENDIF IF stretch NE 0 THEN scale = 1 ; Can't stretch true-color images. IF Size(image, /N_DIMENSIONS) NE 2 THEN scale = 0 ; I would like to avoid making a copy of the image, if possible. ; If nothing needs to be done, just return the image. Only 2D images ; can proceed. IF (N_Elements(xsize) EQ 0) && $ (N_Elements(missing_value) EQ 0) && $ ~Keyword_Set(scale) THEN RETURN, image ; Is there a missing value to worry about? We can only worry ; about missing values with 2D image arrays. ndims = Size(image, /N_DIMENSIONS) IF (N_Elements(missing_value) NE 0) && (ndims EQ 2) THEN BEGIN ; Get the image type. imageType = Size(image, /TNAME) ; Create a temporary image variable. If you will be scaling the data, ; make the image a float if it is not float or double already. CASE imageType OF 'FLOAT': tempImage = image 'DOUBLE': tempImage = image ELSE: tempImage = Float(image) ENDCASE ; The missing value may be the symbol for NAN. IF Finite(missing_value) THEN BEGIN missingIndices = Where(tempImage EQ missing_value, missingCnt) ENDIF ELSE BEGIN missingIndices = Where(Finite(tempImage) EQ 0, missingCnt) ENDELSE ; Set the missing indices to the correct NAN value. IF imageType EQ 'DOUBLE' THEN BEGIN IF missingCnt GT 0 THEN tempImage[missingIndices] = !Values.D_NAN ENDIF ELSE BEGIN IF missingCnt GT 0 THEN tempImage[missingIndices] = !Values.F_NAN ENDELSE ENDIF ; Do you need scaling? IF Keyword_Set(scale) || (stretch NE 0) THEN BEGIN ; Create a temporary image, if you don't already have one. IF N_Elements(tempImage) EQ 0 THEN BEGIN imageType = Size(image, /TNAME) CASE imageType OF 'FLOAT': tempimage = image 'DOUBLE': tempimage = image ELSE: tempImage = Float(image) ENDCASE ENDIF ; Select the particular kind of stretch you want to do. Unfortunately, we ; can still cause underflow error messages when doing stretch, despite best ; attempts to prevent this. Turn these messages off here. curExcept = !Except !Except = 0 CASE stretch OF ; 0 None No scaling whatsoever is done. ; 1 Linear scaled = BytScl(image, MIN=minValue, MAX=maxValue) ; 2 Clip A histogram stretch, with a percentage of pixels clipped at both the top and bottom ; 3 Gamma scaled = GmaScl(image, MIN=minValue, MAX=maxValue, Gamma=gamma) ; 4 Log scaled = LogScl(image, MIN=minValue, MAX=maxValue, Mean=mean, Exponent=exponent) ; 5 Asinh scaled = AsinhScl(image, MIN=minValue, MAX=maxValue, Beta=beta) ; 6 SquareRoot A linear stretch of the square root histogram of the image values. ; 7 Equalization A linear stretch of the histogram equalized image histogram. ; 8 Gaussian A Gaussian normal function is applied to the image histogram. ; 9 MODIS Scaling done in the differential manner of the MODIS Rapid Response Team ; 10 StdDev A standard deviation stretch. 0: ; No stretch at all. 1: BEGIN ; Linear stretch. tempImage = BytScl(tempImage, Max=maxvalue, Min=minvalue, /NAN, TOP=top) + bottom IF negative THEN tempImage = Byte(top) - tempImage END 2: BEGIN ; Histogram clip stretch. tempImage = ClipScl(tempImage, clip, OMIN=bottom, OMAX=top, NEGATIVE=negative) END 3: BEGIN ; Gamma log scale stretch. tempImage = GmaScl(tempImage, Max=maxvalue, Min=minvalue, $ Gamma=gamma, Negative=negative, OMAX=top, OMIN=bottom) END 4: BEGIN ; Log scale stretch. tempImage = LogScl(tempImage, Max=maxvalue, Min=minvalue, $ Mean=mean, Exponent=exponent, Negative=negative, $ OMIN=bottom, OMAX=top) END 5: BEGIN ; Hyperpolic sine stretch. tempImage = ASinhScl(tempImage, Max=maxvalue, Min=minvalue, $ BETA=beta, Negative=negative, OMAX=top, OMIN=bottom) END 6: BEGIN ; Square Root stretch. tempImage = BytScl(SQRT(tempImage), Max=maxvalue, Min=minvalue, /NAN, TOP=top) + bottom IF negative THEN tempImage = Byte(top) - tempImage END 7: BEGIN ; Histogram equalization stretch. IF (top EQ 255) && (bottom EQ 0) THEN BEGIN tempImage = Hist_Equal(tempImage, MaxV=maxvalue, MinV=minvalue) ENDIF ELSE BEGIN tempImage = Bytscl(Float(Hist_Equal(tempImage, MaxV=maxvalue, MinV=minvalue)), /NAN, TOP=top) + bottom ENDELSE IF negative THEN tempImage = Byte(top) - tempImage END 8: BEGIN ; Gaussian stretch. tempImage = GaussScl(tempImage, Max=maxvalue, Min=minvalue, $ Sigma=sigma, Negative=negative, OMIN=bottom, OMAX=top) END 9: BEGIN ; MODIS image stretch. tempImage = ScaleModis(tempImage) END 10: BEGIN ; Standard deviation stretch. tempImage = SDevScl(tempImage, MULTIPLIER=multiplier, EXCLUDE=exclude, $ Negative=negative, OMAX=top, OMIN=bottom) END ELSE: Message, 'Unknown scaling index.' ENDCASE ; Clear the math error register and turn normal error checking on. void = Check_Math() !Except = curExcept ENDIF ; After scaling, you may need to replace missing values with the ; missing index. IF N_Elements(missingCnt) NE 0 THEN BEGIN IF missingCnt GT 0 THEN tempImage[missingIndices] = missing_index ENDIF ; If you created a temporary image, then return that. ; Otherwise you can return the original image, modified ; to the appropriate size. IF N_Elements(tempImage) EQ 0 THEN BEGIN IF (N_Elements(xsize) EQ 0) THEN BEGIN RETURN, image ENDIF ELSE BEGIN RETURN, cgResizeImage(image, xsize, ysize, $ INTERP=interpolate, MINUS_ONE=minus_one) ENDELSE ENDIF ELSE BEGIN IF (N_Elements(xsize) EQ 0) THEN BEGIN RETURN, tempImage ENDIF ELSE BEGIN RETURN, cgResizeImage(tempImage, xsize, ysize, $ INTERP=interpolate, MINUS_ONE=minus_one) ENDELSE ENDELSE END