; docformat = 'rst' ; ; NAME: ; cgSymbol ; ; PURPOSE: ; This function provides a device-independent way to ask for commonly-used ; symbols (e.g., less than or equal to, Angstrom, degree symbol, etc.), ; including all 24 Greek symbols in upper and lower case, to display with text. ; ;******************************************************************************************; ; ; ; Copyright (c) 2011, 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 provides a device-independent way to ask for commonly-used ; symbols (e.g., less than or equal to, Angstrom, degree symbol, subscripts, superscripts, etc.), ; including all 24 Greek symbols in upper and lower case, to display with text. ; ; For this program to work correctly on your graphics display, you should be using ; Hershey fonts (!P.Font=-1). It will work correctly in PostScript with either ; hardware fonts (!P.Font=0) or True-Type fonts (!P.Font=1). ; ; `Greek Symbols ` are created by ; calling the Coyote Library routine `cgGreek ' ; from this program. ; ; .. image:: cgsymbol.png ; ; Normally, rather than calling cgSymbol, the symbols are embedded in Coyote Graphics ; text that are used for axis annotation and so forth. See `Embedding Symbols in Coyote ; Graphics Output `. Embedded subscripts ; and superscripts are implemented like this:: ; $\upTEXT$ : Raise the text in TEXT to superscript level and reduce character size by 62%. ; $\expTEXT$ : Raise the text in TEXT to superscript level and reduce character size by 44%. ; $\downTEXT$ : Lower the text in TEXT to subscript level and reduce character size by 62%. ; $\subTEXT$ : Lower the text in TEXT to subscript level and reduce character size by 44%. ; ; :Categories: ; Graphics ; ; :Returns: ; A string variable that represents the requested symbol and can be used ; in a textual context. ; ; :Examples: ; To create a lowercase Greek psi symbol:: ; ; IDL> cgPlot, findgen(11), XTitle='This title contains ' + $ ; cgSymbol('psi') + ' as a Greek letter' ; IDL> cgPlot, findgen(11), XTitle='This title contains $\psi$ as a Greek letter' ; ; To create an Angstrom sign:: ; ; IDL> cgPlot, findgen(11), XTitle='This title contains (' + $ ; cgSymbol('Angstrom') + ') an Angstrom sign.' ; IDL> cgPlot, findgen(11), XTitle='This title contains ($\Angstrom$) an Angstrom sign.' ; ; To create subscripts or superscripts:: ; ; IDL> cgPlot, findgen(11), XTitle='E=mc$\up2$' ; IDL> cgPlot, findgen(11), XTitle='H$\sub2$O' ; IDL> cgPlot, findgen(11), XTitle='H$\upSuper$MT $\Omega$$\subSubscript$', Charsize=2.0 ; ; It is possible to use Greek characters as superscripts and subscripts. Do so by ; prepending the Greek character with "\\" inside the normal superscript or subscript ; notation. For example, to use lambda as an exponent to the Greek character Omega, you ; can type this:: ; ; IDL> cgPlot, cgDemoData(1), XTitle='$\Omega$$\exp\\lambda$', Charsize=2.0 ; ; To use lambda as a subscript, type this: ; ; IDL> cgPlot, cgDemoData(1), XTitle='$\Omega$$\sub\\lambda$', Charsize=2.0 ; ; :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, 2 September 2011. ; Added plus-minus symbol. 2 Nov 2011. DWF. ; Added "up", "down", "exp" "sub" and "n" symbols for subscripting and superscripting. 9 Nov 2012. DWF. ; Added "division" and "times" signs. 24 Nov 2012. DWF. ; Updated UNICODE values to display capital letters correctly. 23 Dec 2012. DWF. ; ; :Copyright: ; Copyright (c) 2011, Fanning Software Consulting, Inc. ;- ;+ ; Displays the symbols and their names in a graphics window. ; ; :Keywords: ; ps: in, optional, type=boolean, default=0 ; Normally, the PostScript version of the symbol is returned automatically if ; the current device is PostScript and !P.Font is 0 or 1. But, the PostScript version ; of the symbol can be obtained at any time and in any device, by setting this keyword. ; unicode: in, optional, type=boolean, default=0 ; If this keyword is set, the function returns the Unicode value for the symbol. ; ;- PRO cgSymbol_Example, PS=ps, UNICODE=unicode Forward_Function cgSymbol Compile_Opt hidden ; The symbols.. symbol = [ 'alpha', 'beta', 'gamma', 'delta', 'epsilon', 'zeta', $ 'eta', 'theta', 'iota', 'kappa', 'lambda', 'mu', $ 'nu', 'xi', 'omicron', 'pi', 'rho', 'sigma', 'tau', $ 'upsilon', 'phi', 'chi', 'psi', 'omega', 'leq', 'geq', $ 'neq', 'deg', '+-', 'equiv', 'prime', 'angstrom', 'sun', $ 'varphi', 'infinity', 'copyright' ] ; Output positions. x = [0.15, 0.4, 0.65] y = Reverse((Indgen(13) + 1) * (1.0 / 14)) ; Need PostScript output? IF Keyword_Set(ps) || (!D.Name EQ 'PS') THEN cgPS_Open ; Create a window. cgDisplay, 800, 500 ; Output the symbols. FOR j=0,11 DO BEGIN cgText, x[0], y[j], symbol[j] + ': ' + $ cgSymbol(symbol[j], UNICODE=unicode) + cgSymbol(symbol[j], /CAPITAL, UNICODE=unicode), $ /NORMAL, CHARSIZE=1.5 cgText, x[1], y[j], symbol[j+12] + ': ' + $ cgSymbol(symbol[j+12], UNICODE=unicode) + cgSymbol(symbol[j+12], /CAPITAL, UNICODE=unicode), $ /NORMAL, CHARSIZE=1.5 IF j NE 12 THEN cgText, x[2], y[j], symbol[j+24] + ': ' + $ cgSymbol(symbol[j+24], UNICODE=unicode), $ /NORMAL, CHARSIZE=1.5 ENDFOR ; Clean up PostScript, if needed. IF Keyword_Set(ps) || (!D.Name EQ 'PS') THEN cgPS_Close ; Restore the users window. IF N_Elements(thisWindow) NE 0 THEN BEGIN IF thisWindow GE 0 THEN WSet, thisWindow ENDIF END ; -------------------------------------------------------------------------------------- ;+ ; This function provides a device-independent way to ask for commonly-used ; symbols (e.g., less than or equal to, Angstrom, degree symbol, etc.), ; including all 24 Greek symbols in upper and lower case, to display with text. ; ; :Params: ; symbol: in, required, type=string, default="alpha" ; The name of the symbol desired as a string. Valid string names are the 24 ; characters of the Greek alphabet, plus commonly used graphical symbols:: ; ; alpha nu leq ; beta xi geq ; gamma omicron neg ; delta pi deg ; epsilon rho equiv ; zeta sigma prime ; eta tau angstrom ; theta upsilon sun ; iota phi varphi ; kappa chi infinity ; lambda psi copyright ; mu omega ; ; Note that if the first letter of the name is capitalized, this is ; the equivalent of setting the `Capital` keyword. Only Greek characters ; use this method of selecting symbols. ; ; :Keywords: ; capital: in, optional, type=boolean, default=0 ; If this keyword is set, the captial Greek letter is returned rather than the lowercase ; Greek letter. An alternative way of capitalizing the letter is to make the first letter ; of the name an uppercase letter. ; example: in, optional, type=boolean, default=0 ; If this keyword is set, the names of symbols and the symbols themselves are written ; out in the current graphics window. ; ps: in, optional, type=boolean, default=0 ; Normally, the PostScript version of the symbol is returned automatically if ; the current device is PostScript and !P.Font is 0 or 1. But, the PostScript version ; of the symbol can be obtained at any time and in any device, by setting this keyword. ; unicode: in, optional, type=boolean, default=0 ; If this keyword is set, the function returns the Unicode value for the symbol. ; ;- FUNCTION cgSymbol, symbol, CAPITAL=capital, EXAMPLE=example, PS=PS, UNICODE=unicode Compile_Opt idl2 ; Return to caller on error. ON_Error, 2 ; A common block to communicate with cgPS_Open. COMMON _$FSC_PS_START_, ps_struct ; Do you wish to see an example? IF Keyword_Set(example) THEN BEGIN cgSymbol_Example, UNICODE=unicode, PS=ps RETURN, "" ENDIF ; A symbol name is required. IF N_Elements(symbol) EQ 0 THEN BEGIN Print, 'Syntax: cgSymbol("theSymbol") RETURN, "" ENDIF ; Return quietly if the symbol is a null string. IF symbol EQ "" THEN RETURN, "" ; Set up PostScript device for working with Greek letters. IF !D.Name EQ 'PS' THEN Device, ISOLATIN1=1 ; Check keywords. capital = Keyword_Set(capital) ; If the first letter of the "symbol" variable is uppercase ; the user wants an uppercase symbol, if available. firstLetter = StrMid(symbol, 0, 1) IF firstLetter EQ StrUpCase(firstLetter) THEN capital = 1 IF Keyword_Set(unicode) THEN BEGIN CASE StrLowCase(symbol) OF 'alpha': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'beta': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'gamma': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'delta': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'epsilon': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'zeta': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'eta': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'theta': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'iota': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'kappa': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'lambda': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'mu': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'nu': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'xi': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'omicron': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'pi': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'rho': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'sigma': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'tau': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'upsilon': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'phi': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'chi': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'psi': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'omega': retSymbol = cgGreek(symbol, /UNICODE, CAPITAL=capital) 'leq': retSymbol = '!Z(2266)' 'geq': retSymbol = '!Z(2267)' 'neq': retSymbol = '!Z(2260)' 'deg': retSymbol = '!Z(00B0)' '+-': retSymbol = '!Z(00B1)' 'equiv': retSymbol = '!Z(2261)' 'prime': retSymbol = '!Z(2232)' 'angstrom':retSymbol = '!Z(00C5)' 'sun': retSymbol = '!Z(2609)' 'varphi': retSymbol = '!Z(03D5)' 'infinity':retSymbol = '!Z(221E)' 'copyright': retSymbol = '!Z(00A9)' 'up': retSymbol = '!U' 'down': retSymbol = '!D' 'exp': retSymbol = '!E' 'sub': retSymbol = '!I' 'n': retSymbol = '!N' 'div': retSymbol = '!Z(00F7)' 'times': retSymbol = '!Z(00D7)' ELSE: Message, 'The symbol ' + symbol + ' is unrecognized.' ENDCASE ; Return the UNICODE letter. RETURN, retSymbol ENDIF IF ((!D.Name EQ 'PS') && (!P.FONT NE -1)) || Keyword_Set(PS) THEN BEGIN ; Make sure ISOLATIN1 encoding is turned on. IF (!D.Name EQ 'PS') THEN DEVICE, /ISOLATIN1 CASE StrLowCase(symbol) OF 'alpha': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'beta': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'gamma': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'delta': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'epsilon': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'zeta': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'eta': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'theta': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'iota': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'kappa': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'lambda': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'mu': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'nu': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'xi': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'omicron': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'pi': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'rho': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'sigma': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'tau': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'upsilon': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'phi': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'chi': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'psi': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'omega': retSymbol = cgGreek(symbol, CAPITAL=capital, /PS) 'leq': retSymbol = '!9' + String("243B) + '!X' 'geq': retSymbol = '!9' + String("263B) + '!X' 'neq': retSymbol = '!9' + String("271B) + '!X' 'deg': retSymbol = '!9' + String("260B) + '!X' '+-': retSymbol = '!9' + String("261B) + '!X' 'equiv': retSymbol = '!9' + String("272B) + '!X' 'prime': retSymbol = '!9' + String("242B) + '!X' 'angstrom':retSymbol = '!3' + String("305B) + '!X' 'sun': BEGIN IF (ps_struct.font EQ 1) && (StrUpCase(ps_struct.tt_font) EQ 'DEJAVUSANS') THEN BEGIN retSymbol = '!Z(2609)' ENDIF ELSE BEGIN thisDevice = !D.Name Set_Plot, 'PS' Device, /AVANTGARDE, ISOLATIN1=0, /BOOK, FONT_INDEX = 20 retSymbol = '!20!S!DO!R!I ' + string(183b) + '!X!N' Set_Plot, thisDevice ENDELSE END 'varphi': retSymbol = '!9' + String("152B) + '!X' 'infinity':retSymbol = '!9' + String("245B) + '!X' 'copyright':retSymbol = '!9' + String("323B) + '!X' 'up': retSymbol = '!U' 'down': retSymbol = '!D' 'exp': retSymbol = '!E' 'sub': retSymbol = '!I' 'n': retSymbol = '!N' 'div': retSymbol = '!9' + String("270B) + '!X' 'times': retSymbol = '!9' + String("264B) + '!X' ELSE: Message, 'The symbol ' + symbol + ' is unrecognized.' ENDCASE ENDIF ELSE BEGIN CASE StrLowCase(symbol) OF 'alpha': retSymbol = cgGreek(symbol, CAPITAL=capital) 'beta': retSymbol = cgGreek(symbol, CAPITAL=capital) 'gamma': retSymbol = cgGreek(symbol, CAPITAL=capital) 'delta': retSymbol = cgGreek(symbol, CAPITAL=capital) 'epsilon': retSymbol = cgGreek(symbol, CAPITAL=capital) 'zeta': retSymbol = cgGreek(symbol, CAPITAL=capital) 'eta': retSymbol = cgGreek(symbol, CAPITAL=capital) 'theta': retSymbol = cgGreek(symbol, CAPITAL=capital) 'iota': retSymbol = cgGreek(symbol, CAPITAL=capital) 'kappa': retSymbol = cgGreek(symbol, CAPITAL=capital) 'lambda': retSymbol = cgGreek(symbol, CAPITAL=capital) 'mu': retSymbol = cgGreek(symbol, CAPITAL=capital) 'nu': retSymbol = cgGreek(symbol, CAPITAL=capital) 'xi': retSymbol = cgGreek(symbol, CAPITAL=capital) 'omicron': retSymbol = cgGreek(symbol, CAPITAL=capital) 'pi': retSymbol = cgGreek(symbol, CAPITAL=capital) 'rho': retSymbol = cgGreek(symbol, CAPITAL=capital) 'sigma': retSymbol = cgGreek(symbol, CAPITAL=capital) 'tau': retSymbol = cgGreek(symbol, CAPITAL=capital) 'upsilon': retSymbol = cgGreek(symbol, CAPITAL=capital) 'phi': retSymbol = cgGreek(symbol, CAPITAL=capital) 'chi': retSymbol = cgGreek(symbol, CAPITAL=capital) 'psi': retSymbol = cgGreek(symbol, CAPITAL=capital) 'omega': retSymbol = cgGreek(symbol, CAPITAL=capital) 'leq': retSymbol = '!9' + String("154B) + '!X' 'geq': retSymbol = '!9' + String("142B) + '!X' 'neq': retSymbol = '!9' + String("75B) + '!X' 'deg': retSymbol = '!9' + String("45B) + '!X' '+-': retSymbol = '!9' + String("53B) + '!X' 'equiv': retSymbol = '!9' + String("72B) + '!X' 'prime': retSymbol = '!9' + String("140B) + '!X' 'angstrom':retSymbol = '!3' + String("305B) + '!X' 'sun': retSymbol = '!D!9n!N!X' 'varphi': retSymbol = '!9' + String("120B) + '!X' 'infinity':retSymbol = '!9' + String("44B) + '!X' 'copyright':retSymbol = '!3' + String("251B) + '!X' 'up': retSymbol = '!U' 'down': retSymbol = '!D' 'exp': retSymbol = '!E' 'sub': retSymbol = '!I' 'n': retSymbol = '!N' 'div': retSymbol = '!9' + String("57B) + '!X' 'times': retSymbol = '!9' + String("130B) + '!X' ELSE: Message, 'The symbol ' + symbol + ' is unrecognized.' ENDCASE ENDELSE RETURN, retSymbol END