% Florian Sihler, 2024 % Licensed under GNU General Public License version 3 % https://opensource.org/licenses/gpl-3.0.html \def\filename{fancyqr} \ProvidesPackage{\filename}[2024/11/27 version v2.2 Fancy QR-Codes] \RequirePackage{pict2e, xfp, qrcode} % element % x: {\the\j}; y: {\the\i} | \@max@x \@max@y \def\@@fancyqr@color@gradient#1{\edef\angle{\fpeval{% % approximate mod \fancyqr@gradient@angle+225 - floor((\fancyqr@gradient@angle+225)/360)*360 }}% rotate to align 0 to the right \edef\gradient{\fpeval{% % we do rotate the x and y points before color drawing by % Mod(\fancyqr@gradient@angle,360) with the shifted origin % Old: #3/2 #4/2 ((\the\j-\@half@max@x)*cos(\angle) - (\the\i-\@half@max@y)*sin(\angle) + \@half@max@x)/\@max@x * 50% rel x [0,1] + ((\the\j-\@half@max@x)*sin(\angle) + (\the\i-\@half@max@y)*cos(\angle) + \@half@max@y)/\@max@y * 50% rel y [0,1] }}\@declaredcolor{qr@fancy@gradient@br!\gradient!qr@fancy@gradient@tl}{#1}} \def\@@fancyqr@color@default#1{\@declaredcolor{qr@fancy@gradient@tl}{#1}} \def\@@fancyqr@color@random#1{\pgfmathrandomitem{\@fancyqr@random@c@l@r}{@@fancyqr@@randomcol}\@declaredcolor{\@fancyqr@random@c@l@r}{#1}} \let\FancyQrColor\@@fancyqr@color@default \def\fancyqr@rounding@factor{.5} \edef\fancyqr@rounding@other{\fpeval{1-\fancyqr@rounding@factor}} % O 1 O % 2 X 3 % O 4 O % uses \@up\@left\@right\@down \def\GetPattern{% \ifcsname qcc\@up\@left\@right\@down\endcsname \csname qcc\@up\@left\@right\@down\endcsname \fi} % backwards compatibility \def\fancyqr@clap#1{\hb@xt@\z@{\hss#1\hss}} \newdimen\fancyqr@edge@compensate \fancyqr@edge@compensate=.15\p@ % is larger to be compensated by overlaps \def\qrm{\dimexpr\qr@modulesize+\fancyqr@edge@compensate\relax} \long\def\qr@newpattern#1#2#3#4#5{% \expandafter\def\csname qcc#1#2#3#4\endcsname{% scaling happens implicitly by the unitlength \put(\the\j,\the\numexpr\@max@y-\the\i){% \advance\unitlength by\fancyqr@edge@compensate\relax #5% }}% } % [#3][#2] % [#4][#1] \def\fancyqr@rounded@rect#1#2#3#4{% \ifnum#4=\@ne\relax \moveto(\fancyqr@rounding@factor,\z@)\else\moveto(\z@,\z@)\fi \ifnum#1=\@ne \lineto(\fancyqr@rounding@other,\z@)% \circlearc\fancyqr@rounding@other\fancyqr@rounding@factor\fancyqr@rounding@factor{270}{360} \else\lineto(\@ne,\z@)\fi \ifnum#2=\@ne \lineto(\@ne,\fancyqr@rounding@other)% \circlearc\fancyqr@rounding@other\fancyqr@rounding@other\fancyqr@rounding@factor{0}{90} \else\lineto(\@ne,\@ne)\fi \ifnum#3=\@ne \lineto(\fancyqr@rounding@factor,\@ne)% \circlearc\fancyqr@rounding@factor\fancyqr@rounding@other\fancyqr@rounding@factor{90}{180} \else\lineto(\z@,\@ne)\fi \ifnum#4=\@ne \lineto(\z@,\fancyqr@rounding@factor)% \circlearc\fancyqr@rounding@factor\fancyqr@rounding@factor\fancyqr@rounding@factor{180}{270} \else\lineto(\z@,\z@)\fi \fancyqr@rounded@rect@close } \def\fancyqr@rounded@rect@close{\fillpath} \def\FancyQrLoadDefault{% % . \qr@newpattern0000{\fancyqr@rounded@rect1111}% % | | - - \qr@newpattern1000{\fancyqr@rounded@rect1001}% \qr@newpattern0001{\fancyqr@rounded@rect0110}% \qr@newpattern0100{\fancyqr@rounded@rect1100}% \qr@newpattern0010{\fancyqr@rounded@rect0011}% % corners \qr@newpattern1100{\fancyqr@rounded@rect1000}% bottom right \qr@newpattern1010{\fancyqr@rounded@rect0001}% bottom left \qr@newpattern0101{\fancyqr@rounded@rect0100}% top right \qr@newpattern0011{\fancyqr@rounded@rect0010}% top left % straights | -- \qr@newpattern1001{\fancyqr@rounded@rect0000}% \qr@newpattern0110{\fancyqr@rounded@rect0000}% % enclosed \qr@newpattern1111{\fancyqr@rounded@rect0000}% % t's \qr@newpattern0111{\fancyqr@rounded@rect0000}% \qr@newpattern1011{\fancyqr@rounded@rect0000}% \qr@newpattern1101{\fancyqr@rounded@rect0000}% \qr@newpattern1110{\fancyqr@rounded@rect0000}% } \FancyQrLoadDefault % allows to reset the style after other loads \def\@fancy@qr@default@name{default} \def\FancyQrLoad#1{% \protected@edef\fancyqr@loaded@style{#1}% \def\fancyqr@rounded@rect@close{\fillpath}% \let\@tmp\newpattern\let\newpattern\qr@newpattern\@bsphack\def\@@tmp{#1}% \ifx\@@tmp\@fancy@qr@default@name\FancyQrLoadDefault\else \expandafter\edef\csname pingu@lib@#1@atcode\endcsname{\the\catcode`\@}% \catcode`\@=11\relax \input{fancyqr-style-#1.code}% \catcode`\@=\csname pingu@lib@#1@atcode\endcsname \fi\@esphack\let\newpattern\@tmp\let\@tmp\relax} % modify the getter so everything that is not defined is white: \def\fancy@qr@matrixentry#1#2#3{% \ifcsname #1@#2@#3\endcsname % #1 = matrix name % #2 = row number % #3 = column number \csname #1@#2@#3\endcsname \else\qr@white@format\fi }% % #1 width % #2 height \def\FancyQrDoNotPrintSquare#1#2{% \def\fancy@qr@donotprint@center@x{#1}% \def\fancy@qr@donotprint@center@y{#2}% } \FancyQrDoNotPrintSquare00 % is a factor between 0 and 1 \def\FancyQrDoNotPrintRadius#1{% \def\fancy@qr@donotprint@center@r{#1}% } \FancyQrDoNotPrintRadius0 \newif\iffancy@qr@do@print@ \def\qr@fancy@updateif#1#2{\fancy@qr@do@print@true \ifdim\fancy@qr@donotprint@center@r\p@>\z@ \ifnum#1>\@do@y@min\relax \ifnum#1<\@do@y@max\relax \ifnum#2>\@do@x@min\relax \ifnum#2<\@do@x@max\relax \ifdim\fpeval{sqrt((#1-\@half@max@y)^2 + (#2-\@half@max@x)^2)}\p@<\@max@rcrad\p@ \fancy@qr@do@print@false \fi \fi\fi\fi\fi \else \ifnum#1>\@do@y@min\relax \ifnum#1<\@do@y@max\relax \ifnum#2>\@do@x@min\relax \ifnum#2<\@do@x@max\relax \fancy@qr@do@print@false \fi\fi\fi\fi\fi } \newif\iffancy@qr@roundcut@ \fancy@qr@roundcut@true \let\FancyQrHardCut\fancy@qr@roundcut@false \let\FancyQrRoundCut\fancy@qr@roundcut@true % clear plus if not to be printed \def\qr@fancy@clear@surround#1#2#3{% \qr@fancy@updateif{\the\numexpr#2-1}{#3}% \iffancy@qr@do@print@\else \expandafter\let\csname #1@\the\numexpr#2-1 @#3\endcsname\@undefined \fi \qr@fancy@updateif{\the\numexpr#2+1}{#3}% \iffancy@qr@do@print@\else \expandafter\let\csname #1@\the\numexpr#2+1 @#3\endcsname\@undefined \fi \qr@fancy@updateif{#2}{\the\numexpr#3-1}% \iffancy@qr@do@print@\else \expandafter\let\csname #1@#2@\the\numexpr#3-1\endcsname\@undefined \fi \qr@fancy@updateif{#2}{\the\numexpr#3+1}% \iffancy@qr@do@print@\else \expandafter\let\csname #1@#2@\the\numexpr#3+1\endcsname\@undefined \fi } \newif\if@fancyqr@image@ \def\qr@white{0}\def\qr@black{1}% \def\fancy@qr@printmatrix#1{% \protected@edef\fancyqr@currprint{#1}% \let\qr@black@fixed\qr@black \let\qr@white@fixed\qr@white \let\qr@black@format\qr@black \let\qr@white@format\qr@white %Set module size \qr@modulesize=\qr@desiredheight\relax \divide\qr@modulesize by \qr@size\relax \unitlength=\dimexpr\qr@modulesize\relax % will be re-set in placement \if@fancyqr@image@% image is in \fancyqr@imgbox \edef\@x{\fpeval{ceil((.5\wd\fancyqr@imgbox)/\qr@modulesize)+\fancyqr@img@padding@x}}% \edef\@y{\fpeval{ceil((.5\ht\fancyqr@imgbox+.5\dp\fancyqr@imgbox)/\qr@modulesize)+\fancyqr@img@padding@y}}% \FancyQrDoNotPrintSquare\@x\@y \fi \qr@minipagewidth=\qr@desiredheight \ifqr@tight\else \advance\qr@minipagewidth by 8\qr@modulesize\relax \fi \begingroup \edef\@max@x{\qr@numberofrowsinmatrix\fancyqr@currprint}\edef\@half@max@x{\the\numexpr\@max@x/2}% \edef\@max@y{\qr@numberofcolsinmatrix\fancyqr@currprint}\edef\@half@max@y{\the\numexpr\@max@y/2}% % redefine the border to be white! \qr@for \i=\@ne to \@max@y by \@ne{% % redefine the limits to be white! \qr@storetomatrix\fancyqr@currprint{\the\numexpr\z@}{\the\i}{\qr@white}% \qr@storetomatrix\fancyqr@currprint{\the\numexpr\@max@x+\@ne}{\the\i}{\qr@white}% }% \qr@for \i=\@ne to \@max@x by \@ne{% \qr@storetomatrix\fancyqr@currprint{\the\i}{\the\numexpr\z@}{\qr@white}% \qr@storetomatrix\fancyqr@currprint{\the\i}{\the\numexpr\@max@y+\@ne}{\qr@white}% }% \edef\@do@x@min{\the\numexpr\@half@max@x-\fancy@qr@donotprint@center@x-\@ne}% \edef\@do@x@max{\the\numexpr\@half@max@x+\fancy@qr@donotprint@center@x+\@ne}% \edef\@do@y@min{\the\numexpr\@half@max@y-\fancy@qr@donotprint@center@y-\@ne}% \edef\@do@y@max{\the\numexpr\@half@max@y+\fancy@qr@donotprint@center@y+\@ne}% \edef\@max@rcrad{\fpeval{max((\@ne-\fancy@qr@donotprint@center@r)*\fancy@qr@donotprint@center@x,(\@ne-\fancy@qr@donotprint@center@r)*\fancy@qr@donotprint@center@y)+\fancyqr@edge@compensate}}% \edef\@tmp@tight{\ifqr@tight\z@\else-4\fi}% \picture(\qr@minipagewidth,\qr@minipagewidth)(\the\numexpr\@ne+\@tmp@tight,\@tmp@tight) \qr@for \i=\@ne to \@max@y by \@ne{\qr@for \j=\@ne to \@max@x by \@ne{% \qr@fancy@updateif\i\j \iffancy@qr@do@print@ \edef\@mid{\qr@matrixentry\fancyqr@currprint{\the\i}{\the\j}}% \ifnum\@mid=\qr@black\relax \iffancy@qr@roundcut@\qr@fancy@clear@surround\fancyqr@currprint{\the\i}{\the\j}\fi \edef\@up{\qr@matrixentry\fancyqr@currprint{\the\numexpr\the\i-\@ne}{\the\j}}% \edef\@left{\qr@matrixentry\fancyqr@currprint{\the\i}{\the\numexpr\the\j-\@ne}}% \edef\@right{\qr@matrixentry\fancyqr@currprint{\the\i}{\the\numexpr\the\j+\@ne}}% \edef\@down{\qr@matrixentry\fancyqr@currprint{\the\numexpr\the\i+\@ne}{\the\j}}% \FancyQrColor{\GetPattern}% \fi\fi }}% \if@fancyqr@image@ % floating point mid \put(\fpeval{.5*\@max@x+.5},\fpeval{.5*\@max@y}){% \edef\@halfcheck{\fpeval{round(\fancy@qr@donotprint@center@x/2)}}% \raisebox{-.5\height}{\clap{% TODO: remove this offset \ifodd\@halfcheck \else\kern\qr@modulesize\fi \usebox\fancyqr@imgbox }}% }% \fi \endpicture \endgroup }% \def\fancy@qr@setup#1{% \qr@creatematrix{#1}% \expandafter\gdef\csname #1@numrows\endcsname{\qr@size}% \expandafter\gdef\csname #1@numcols\endcsname{\qr@size}% % we do not need to create blank because we store all \qr@placefinderpatterns{#1}% \qr@placetimingpatterns{#1}% \qr@placealignmentpatterns{#1}% } \newcount\c@fancy@a \newcount\c@fancy@b % the normal data is... well... \def\fancy@qr@writedata#1#2{% % #1 = name of a matrix that has been prepared with finder patterns, timing patterns, etc. % #2 = a string consisting of 0's and 1's to write into the matrix. \expandafter\c@fancy@a\the\numexpr\qr@numberofrowsinmatrix{#1}\relax \expandafter\c@fancy@b\the\numexpr\qr@numberofcolsinmatrix{#1}\relax \edef\qr@datatowrite{#2\relax}% \c@qr@i0\relax \@whilenum\c@qr@i<\c@fancy@a\do{% \c@qr@j0 \advance\c@qr@i\@ne \@whilenum\c@qr@j<\c@fancy@b\do{% \advance\c@qr@j\@ne \expandafter\fancy@qr@writebit\qr@datatowrite:{#1}% }% }% } \def\fancy@qr@writebit#1#2:#3{% % #3 = matrix name % (qr@i,qr@j) = position to write in (LaTeX counters) % #1 = bit to be written % #2 = remaining bits plus '\relax' as an end-of-file marker \edef\qr@datatowrite{#2}% \ifnum#1=1 \qr@storetomatrix{#3}{\number\c@qr@i}{\number\c@qr@j}{\qr@black}% \else \qr@storetomatrix{#3}{\number\c@qr@i}{\number\c@qr@j}{\qr@white}% \fi }% \def\fancy@qr@printsavedbinarymatrix#1{% \def\qr@binarystring{#1\relax\relax}% \fancy@qr@setup{@tmp}% \fancy@qr@writedata{@tmp}{\qr@binarystring}% \fancy@qr@printmatrix{@tmp}% }% \newsavebox\fancyqr@imgbox \newif\if@fancyqr@randomcolor@ \define@key{fancyqr}{image x padding}{\def\fancyqr@img@padding@x{#1}} \define@key{fancyqr}{image y padding}{\def\fancyqr@img@padding@y{#1}} \define@key{fancyqr}{image padding}{\def\fancyqr@img@padding@x{#1}\def\fancyqr@img@padding@y{#1}} \define@key{fancyqr}{image}{\@fancyqr@image@true\savebox\fancyqr@imgbox{#1}} \define@key{fancyqr}{color}{\@fancyqr@randomcolor@false\@fancyqr@gradientfalse\colorlet{qr@fancy@gradient@tl}{#1}} \define@key{fancyqr}{left color}{\@fancyqr@randomcolor@false\colorlet{qr@fancy@gradient@br}{#1}} \define@key{fancyqr}{l color}{\@fancyqr@randomcolor@false\colorlet{qr@fancy@gradient@br}{#1}} \define@key{fancyqr}{right color}{\@fancyqr@randomcolor@false\colorlet{qr@fancy@gradient@tl}{#1}} \define@key{fancyqr}{r color}{\@fancyqr@randomcolor@false\colorlet{qr@fancy@gradient@tl}{#1}} \define@key{fancyqr}{gradient angle}{\@fancyqr@randomcolor@false\def\fancyqr@gradient@angle{#1}} \define@boolkey{fancyqr}[@fancyqr@]{gradient}[true]{}% if@fancyqr@gradient \define@key{fancyqr}{random color}{\@fancyqr@randomcolor@true\def\@fancyqr@random@colors{#1}} \define@key{fancyqr}{width}{\setkeys{qr}{height=#1}} \define@key{fancyqr}{size}{\setkeys{qr}{height=#1}} \define@key{fancyqr}{compensate}{\setlength\fancyqr@edge@compensate{#1}} % \fancyqr@loaded@style \def\fancyqr@flat@style{flat} \define@boolkey{fancyqr}[@fancyqr@]{classic}[true]{} % if@fancyqr@classic \def\fancyqr@classic{% \ifx\fancyqr@loaded@style\fancyqr@flat@style\else\FancyQrLoad{\fancyqr@flat@style}\fi \setkeys{fancyqr}{% gradient=false,color=black,l color=black,r color=black,compensate=\z@\relax }% } \def\fancyqrset#1{\setkeys{qr,fancyqr}{#1}} \fancyqrset{image padding=0,gradient=true,gradient angle=135,r color=teal,l color=purple} \def\@fancyqr@init{\let\qr@printsavedbinarymatrix\fancy@qr@printsavedbinarymatrix\let\qr@matrixentry\fancy@qr@matrixentry\let\qr@printmatrix\fancy@qr@printmatrix} \def\fancyqr{\@ifstar\s@fancyqr\ns@fancyqr} % we rebuild some parts of qrcode to allow this macro to extend the keys while keeping the wrapper \def\s@fancyqr{\qr@starinvokedtrue\@@fancyqr} \def\ns@fancyqr{\qr@starinvokedfalse\@@fancyqr} \newcommand\@@fancyqr[1][]{\begingroup\@fancyqr@init \ifqr@starinvoked\qr@hyperlinkfalse\fi \setkeys{qr,fancyqr}{#1}% \if@fancyqr@classic\fancyqr@classic\fi% \if@fancyqr@randomcolor@% \ifcsname pgfmathdeclarerandomlist\endcsname\else \PackageError{fancyqr}{Random colors requested but pgfmath not loaded}{Please load pgfmath if you want this}\fi \pgfmathdeclarerandomlist{@@fancyqr@@randomcol}{\@fancyqr@random@colors}\let\FancyQrColor\@@fancyqr@color@random\else\if@fancyqr@gradient\let\FancyQrColor\@@fancyqr@color@gradient\fi\fi \bgroup\qr@verbatimcatcodes\qr@setescapedspecials\qrcode@in} \endinput