Gnuplot.jl/dev/search_index.js

var documenterSearchIndex = {"docs":
[{"location":"style/#Style-Guide-1","page":"Style guide","title":"Style Guide","text":"","category":"section"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"The Gnuplot.jl loose syntax allows to create a plot using very different approaches.  While this was one of the initial purposes for the package, it may lead to decreased code readability if not used judiciously.","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"Here I will summarize a few, non-mandatory, guidelines which allows to maintain a neat syntax and a high readability:","category":"page"},{"location":"style/#Use-macros-without-parentheses-and-commas:-1","page":"Style guide","title":"1 - Use macros without parentheses and commas:","text":"","category":"section"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"The two most important symbols exported by the package (@gp and @gsp) are macros.  As such they are supposed to be invoked without parentheses and commas.  E.g. use:","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp x y \"with lines\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"in place of ","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp(x, y, \"with lines\")","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"If you have very long lines you may split them in multiple statements using the :- symbol, which resembles both hyphenation in natural language and indentation for the plot-producing code:","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp    \"set grid\" :- \n@gp :- x y \"with lines\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"Note that the trailing :- symbol is not mandatory.  If omitted, the plot will be updated at each statement (rather than at the last one).","category":"page"},{"location":"style/#Use-keywords-in-place-of-gnuplot-commands:-1","page":"Style guide","title":"2 - Use keywords in place of gnuplot commands:","text":"","category":"section"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"As discussed in Keywords for common commands several commonly used gnuplot commands can be replaced with a keyword.  E.g. you can use","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp ... xrange=[-1,5] ...","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"in place of ","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp ... \"set xrange [-1:5]\" ...","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"This help reducing the number of strings used in the code, as well as the associated interpolating characters ($), and results in a more concise syntax.","category":"page"},{"location":"style/#Use-abbreviations-for-commands-and-keywords:-1","page":"Style guide","title":"3 - Use abbreviations for commands and keywords:","text":"","category":"section"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"Many gnuplot commands, as well as all keywords (see Keywords for common commands, can be abbreviated as long as the abbreviation is unambiguous.  E.g., the following code:","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp    \"set grid\" \"set key left\" \"set logscale y\"\n@gp :- \"set title 'Plot title'\" \"set label 'X label'\" \"set xrange [0:*]\"\n@gp :- x y \"with lines\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"can be replaced with a shorter version:","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp    \"set grid\" k=\"left\" ylog=true\n@gp :- tit=\"Plot title\" xlab=\"X label\" xr=[0,NaN]\n@gp :- x y \"w l\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"Besides being more idiomatic, the possibility to exploit abbreviations is of great importance when performing interactive data exploration.","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"Moreover, in many gnuplot examples and documentation it is very common to use abbreviations (i.e. w l in place of with lines) so there is no reason to avoid them in Gnuplot.jl.","category":"page"},{"location":"style/#If-possible,-follow-the-*commands*-*data*-*plot-specs*-order-1","page":"Style guide","title":"4 - If possible, follow the commands -> data + plot specs order","text":"","category":"section"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"The two following examples produce exactly the same plot:","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"x = -10.:10\n@gp    \"set grid\" \"set multiplot layout 2,1\" \n@gp :- 1 x x.^2 \"w l t 'f(x) = x^2\"  # first plot\n@gp :- 2 x x.^3 \"w l t 'f(x) = x^3\"  # second plot","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"and","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp    2 x x.^3 \"w l t 'f(x) = x^3\"  # second plot\n@gp :- 1 x x.^2 \"w l t 'f(x) = x^2\"  # first plot\n@gp :- \"set grid\" \"set multiplot layout 2,1\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"However, the first form appears more logical and easy to follow.","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"In analogy with previous example, even on single plot, the following form","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp    \"set grid\"\n@gp :- x x.^2 \"w l t 'f(x) = x^2\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"should be preferred over","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp    x x.^2 \"w l t 'f(x) = x^2\"\n@gp :- \"set grid\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"even if the output is exactly the same.","category":"page"},{"location":"style/#Join-multiple-command-strings:-1","page":"Style guide","title":"5 - Join multiple command strings:","text":"","category":"section"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"Instead of specifying several commands as strings","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp :- \"set key off\"  \"set auto fix\"  \"set size square\"\n@gp :- \"set offsets graph .05, graph .05, graph .05, graph .05\"\n@gp :- \"set border lw 1 lc rgb 'white'\"","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"join them in a single string using triple quotes and ;","category":"page"},{"location":"style/#","page":"Style guide","title":"Style guide","text":"@gp :- \"\"\"set key off;  set auto fix;  set size square;\n          set offsets graph .05, graph .05, graph .05, graph .05;\n          set border lw 1 lc rgb 'white'; \"\"\"","category":"page"},{"location":"api/#API-1","page":"API","title":"API","text":"","category":"section"},{"location":"api/#Index-1","page":"API","title":"Index","text":"","category":"section"},{"location":"api/#","page":"API","title":"API","text":"","category":"page"},{"location":"api/#Exported-symbols-1","page":"API","title":"Exported symbols","text":"","category":"section"},{"location":"api/#","page":"API","title":"API","text":"The list of Gnuplot.jl exported symbols is as follows:","category":"page"},{"location":"api/#","page":"API","title":"API","text":"@gp\n@gsp\nboxxyerror\ncontourlines\ndataset_names\ngpexec\nhist\nlinetypes\npalette\npalette_names\nsave\nsession_names\nstats\nterminals\nterminal\ntest_terminal","category":"page"},{"location":"api/#Gnuplot.@gp","page":"API","title":"Gnuplot.@gp","text":"@gp args...\n\nThe @gp macro, and its companion @gsp for 3D plots, allows to send data and commands to the gnuplot using an extremely concise syntax.  The macros accepts any number of arguments, with the following meaning:\n\none, or a group of consecutive, array(s) build up a dataset.  The different arrays are accessible as columns 1, 2, etc. from the gnuplot process.  The number of required input arrays depends on the chosen plot style (see gnuplot documentation);\na string occurring before a dataset is interpreted as a gnuplot command (e.g. set grid);\na string occurring immediately after a dataset is interpreted as a plot element for the dataset, by which you can specify using clause, with clause, line styles, etc..  All keywords may be abbreviated following gnuplot conventions.  Moreover, \"plot\" and \"splot\" can be abbreviated to \"p\" and \"s\" respectively;\nthe special symbol :-, whose meaning is to avoid starting a new plot (if given as first argument), or to avoid immediately running all commands to create the final plot (if given as last argument).  Its purpose is to allow splitting one long statement into multiple (shorter) ones;\nany other symbol is interpreted as a session ID;\nan Int (>= 1) is interpreted as the plot destination in a multi-plot session (this specification applies to subsequent arguments, not previous ones);\nan input in the form \"\\$name\"=>(array1, array2, etc...) is interpreted as a named dataset.  Note that the dataset name must always start with a \"$\";\nan input in the form keyword=value is interpreted as a keyword/value pair.  The accepted keywords and their corresponding gnuplot commands are as follows:\nxrange=[low, high] => \"set xrange [low:high];\nyrange=[low, high] => \"set yrange [low:high];\nzrange=[low, high] => \"set zrange [low:high];\ncbrange=[low, high]=> \"set cbrange[low:high];\nkey=\"...\"  => \"set key ...\";\ntitle=\"...\"  => \"set title \"...\"\";\nxlabel=\"...\" => \"set xlabel \"...\"\";\nylabel=\"...\" => \"set ylabel \"...\"\";\nzlabel=\"...\" => \"set zlabel \"...\"\";\nxlog=true   => set logscale x;\nylog=true   => set logscale y;\nzlog=true   => set logscale z.\n\nAll Keyword names can be abbreviated as long as the resulting name is unambiguous.  E.g. you can use xr=[1,10] in place of xrange=[1,10].\n\n\n\n\n\n","category":"macro"},{"location":"api/#Gnuplot.@gsp","page":"API","title":"Gnuplot.@gsp","text":"@gsp args...\n\nThis macro accepts the same syntax as @gp, but produces a 3D plot instead of a 2D one.\n\n\n\n\n\n","category":"macro"},{"location":"api/#Gnuplot.boxxyerror","page":"API","title":"Gnuplot.boxxyerror","text":"boxxyerror(x, y; xmin=NaN, ymin=NaN, xmax=NaN, ymax=NaN, cartesian=false)\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.contourlines","page":"API","title":"Gnuplot.contourlines","text":"contourlines(x::Vector{Float64}, y::Vector{Float64}, h::Matrix{Float64}; cntrparam=\"level auto 10\")\n\nCompute paths of contour lines for 2D data, and return a vector of IsoContourLines object.\n\nArguments:\n\nx, y: Coordinates;\nh: the levels on which iso contour lines are to be calculated\ncntrparam: settings to compute contour line paths (see gnuplot documentation for cntrparam).\n\nExample\n\nx = randn(5000);\ny = randn(5000);\nh = hist(x, y, nbins1=20, nbins2=20);\nclines = contourlines(h.bins1, h.bins2, h.counts, cntrparam=\"levels discrete 15, 30, 45\");\n@gp \"set size ratio -1\"\nfor i in 1:length(clines)\n    @gp :- clines[i].data \"w l t '$(clines[i].z)' dt $i\"\nend\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.dataset_names","page":"API","title":"Gnuplot.dataset_names","text":"dataset_names(sid::Symbol)\ndataset_names()\n\nReturn a vector with all dataset names for the sid session.  If sid is not provided the default session is considered.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.gpexec","page":"API","title":"Gnuplot.gpexec","text":"gpexec(sid::Symbol, command::String)\ngpexec(command::String)\n\nExecute the gnuplot command command on the underlying gnuplot process of the sid session, and return the results as a Vector{String}.  If a gnuplot error arises it is propagated as an ErrorException.\n\nThe the sid argument is not provided, the default session is considered.\n\nExamples:\n\ngpexec(\"print GPVAL_TERM\")\ngpexec(\"plot sin(x)\")\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.hist","page":"API","title":"Gnuplot.hist","text":"hist(v::Vector{T}; range=extrema(v), bs=NaN, nbins=0, pad=true) where T <: Number\n\nCalculates the histogram of the values in v and returns a Histogram1D structure.\n\nArguments\n\nv: a vector of values to compute the histogra;\nrange: values of the left edge of the first bin and of the right edge of the last bin;\nbs: size of histogram bins;\nnbins: number of bins in the histogram;\npad: if true add one dummy bins with zero counts before the first bin and after the last.\n\nIf bs is given nbins is ignored.\n\nExample\n\nv = randn(1000)\nh = hist(v, bs=0.5)\n@gp h  # preview\n@gp h.bins h.counts \"w histep notit\"\n\n\n\n\n\nhist(v1::Vector{T1 <: Number}, v2::Vector{T2 <: Number}; range1=[NaN,NaN], bs1=NaN, nbins1=0, range2=[NaN,NaN], bs2=NaN, nbins2=0)\n\nCalculates the 2D histogram of the values in v1 and v2 and returns a Histogram2D structure.\n\nArguments\n\nv1: a vector of values along the first dimension;\nv2: a vector of values along the second dimension;\nrange1: values of the left edge of the first bin and of the right edge of the last bin, along the first dimension;\nrange1: values of the left edge of the first bin and of the right edge of the last bin, along the second dimension;\nbs1: size of histogram bins along the first dimension;\nbs2: size of histogram bins along the second dimension;\nnbins1: number of bins along the first dimension;\nnbins2: number of bins along the second dimension;\n\nIf bs1 (bs2) is given nbins1 (nbins2) is ignored.\n\nExample\n\nv1 = randn(1000)\nv2 = randn(1000)\nh = hist(v1, v2, bs1=0.5, bs2=0.5)\n@gp h  # preview\n@gp \"set size ratio -1\" \"set auto fix\" h.bins1 h.bins2 h.counts \"w image notit\"\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.linetypes","page":"API","title":"Gnuplot.linetypes","text":"linetypes(cmap::ColorScheme; rev=false)\nlinetypes(s::Symbol; rev=false)\n\nConvert a ColorScheme object into a string containing the gnuplot commands to set up linetype colors.\n\nIf the argument is a Symbol it is interpreted as the name of one of the predefined schemes in ColorSchemes. If rev=true the line colors are reversed.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.palette","page":"API","title":"Gnuplot.palette","text":"palette(cmap::ColorScheme; rev=false)\npalette(s::Symbol; rev=false)\n\nConvert a ColorScheme object into a string containing the gnuplot commands to set up the corresponding palette.\n\nIf the argument is a Symbol it is interpreted as the name of one of the predefined schemes in ColorSchemes. If rev=true the palette is reversed.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.palette_names","page":"API","title":"Gnuplot.palette_names","text":"palette_names()\n\nReturn a vector with all available color schemes for the palette and linetypes function.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.save","page":"API","title":"Gnuplot.save","text":"save(sid::Symbol; term=\"\", output=\"\")\nsave(sid::Symbol, script_filename::String, ;term=\"\", output=\"\")\nsave(; term=\"\", output=\"\")\nsave(script_filename::String ;term=\"\", output=\"\")\n\nExport a (multi-)plot into the external file name provided in the output= keyword.  The gnuplot terminal to use is provided through the term= keyword.\n\nIf the script_filename argument is provided a gnuplot script will be written in place of the output image.  The latter can then be used in a pure gnuplot session (Julia is no longer needed) to generate exactly the same original plot.\n\nIf the sid argument is provided the operation applies to the corresponding session.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.session_names","page":"API","title":"Gnuplot.session_names","text":"session_names()\n\nReturn a vector with all currently active sessions.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.stats","page":"API","title":"Gnuplot.stats","text":"stats(sid::Symbol,name::String)\nstats(name::String)\nstats(sid::Symbol)\nstats()\n\nPrint a statistical summary for the name dataset, belonging to sid session.  If name is not provdied a summary is printed for each dataset in the session.  If sid is not provided the default session is considered.\n\nThis function is actually a wrapper for the gnuplot command stats.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.terminals","page":"API","title":"Gnuplot.terminals","text":"terminals()\n\nReturn a Vector{String} with the names of all the available gnuplot terminals.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.terminal","page":"API","title":"Gnuplot.terminal","text":"terminal(sid::Symbol)\nterminal()\n\nReturn a String with the current gnuplot terminal (and its options) of the process associated to session sid, or to the default session (if sid is not provided).\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.test_terminal","page":"API","title":"Gnuplot.test_terminal","text":"test_terminal(term=nothing; linetypes=nothing, palette=nothing)\n\nRun the test and test palette commands on a gnuplot terminal.\n\nIf no term is given it will use the default terminal. If lt and pal are given they are used as input to the linetypes and palette function repsetcively to load the associated color scheme.\n\nExamples\n\ntest_terminal()\ntest_terminal(\"wxt\", lt=:rust, pal=:viridis)\n\n\n\n\n\n","category":"function"},{"location":"api/#Non-exported-symbols-1","page":"API","title":"Non-exported symbols","text":"","category":"section"},{"location":"api/#","page":"API","title":"API","text":"The following functions are not exported by the Gnuplot.jl package since they are typically not used in every day work, or aimed to debugging purposes.  Still, they can be useful in some case, hence they are documented here.","category":"page"},{"location":"api/#","page":"API","title":"API","text":"In order to call these functions you should add the Gnuplot. prefix to the function name.","category":"page"},{"location":"api/#","page":"API","title":"API","text":"Gnuplot.Histogram1D\nGnuplot.Histogram2D\nGnuplot.IsoContourLines\nGnuplot.Options\nGnuplot.Path2d\nGnuplot.gpversion\nGnuplot.quit\nGnuplot.quitall\nGnuplot.version","category":"page"},{"location":"api/#Gnuplot.Histogram1D","page":"API","title":"Gnuplot.Histogram1D","text":"Histogram1D\n\nA 1D histogram data.\n\nFields\n\nbins::Vector{Float64}: bin center values;\ncounts::Vector{Float64}: counts in the bins;\nbinsize::Float64: size of each bin;\n\n\n\n\n\n","category":"type"},{"location":"api/#Gnuplot.Histogram2D","page":"API","title":"Gnuplot.Histogram2D","text":"Histogram2D\n\nA 2D histogram data.\n\nFields\n\nbins1::Vector{Float64}: bin center values along first dimension;\nbins2::Vector{Float64}: bin center values along second dimension;\ncounts::Vector{Float64}: counts in the bins;\nbinsize1::Float64: size of each bin along first dimension;\nbinsize2::Float64: size of each bin along second dimension;\n\n\n\n\n\n","category":"type"},{"location":"api/#Gnuplot.IsoContourLines","page":"API","title":"Gnuplot.IsoContourLines","text":"IsoContourLines\n\nCoordinates of all contour lines of a given level.\n\nFields\n\npaths::Vector{Path2d}: vector of Path2d objects, one for each continuous path;\ndata::Vector{String}: vector with string representation of all paths (ready to be sent to gnuplot);\nz::Float64: level of the contour lines.\n\n\n\n\n\n","category":"type"},{"location":"api/#Gnuplot.Options","page":"API","title":"Gnuplot.Options","text":"Options\n\nStructure containing the package global options, accessible through Gnuplot.options.\n\nFields\n\ndry::Bool: whether to use dry sessions, i.e. without an underlying Gnuplot process (default: false)\ncmd::String: command to start the Gnuplot process (default: \"gnuplot\")\ndefault::Symbol: default session name (default: :default)\ninit::Vector{String}: commands to initialize the gnuplot session (e.g., to set default terminal)\nverbose::Bool: verbosity flag (default: false)\npreferred_format::Symbol: preferred format to send data to gnuplot.  Value must be one of:\nbin: fastest solution for large datasets, but uses temporary files;\ntext: may be slow for large datasets, but no temporary file is involved;\nauto (default) automatically choose the best strategy.\n\n\n\n\n\n","category":"type"},{"location":"api/#Gnuplot.Path2d","page":"API","title":"Gnuplot.Path2d","text":"Path2d\n\nA path in 2D.\n\nFields\n\nx::Vector{Float64}\ny::Vector{Float64}\n\n\n\n\n\n","category":"type"},{"location":"api/#Gnuplot.gpversion","page":"API","title":"Gnuplot.gpversion","text":"Gnuplot.gpversion()\n\nReturn the gnuplot application version.\n\nRaise an error if version is < 5.0 (required to use data blocks).\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.quit","page":"API","title":"Gnuplot.quit","text":"Gnuplot.quit(sid::Symbol)\n\nQuit the session identified by sid and the associated gnuplot process (if any).\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.quitall","page":"API","title":"Gnuplot.quitall","text":"Gnuplot.quitall()\n\nQuit all the sessions and the associated gnuplot processes.\n\n\n\n\n\n","category":"function"},{"location":"api/#Gnuplot.version","page":"API","title":"Gnuplot.version","text":"Gnuplot.version()\n\nReturn the Gnuplot.jl package version.\n\n\n\n\n\n","category":"function"},{"location":"basic/#Basic-usage-1","page":"Basic usage","title":"Basic usage","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The main purpose of the Gnuplot.jl package is to send data and commands to the underlying gnuplot process, in order to generate plots.  Unlike other packages, however, the actual commands to plot, or the plot attributes, are not specified through function calls.  This is what makes Gnuplot.jl easy to learn and use: there are no functions or keywords names to memorize[1].","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The most important symbols exported by the package are the @gp (for 2D plots) and @gsp (for 3D plots) macros, both accepting any number of arguments, and whose meaning is interpreted as follows:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"one, or a group of consecutive, array(s) build up a dataset.  The different arrays are accessible as columns 1, 2, etc. from the gnuplot process.  The number of required input arrays depends on the chosen plot style (see gnuplot documentation);\na string occurring before a dataset is interpreted as a gnuplot command (e.g. set grid);\na string occurring immediately after a dataset is interpreted as a plot element for the dataset, by which you can specify using clause, with clause, line styles, etc.;\nthe special symbol :-, whose meaning is to avoid starting a new plot (if given as first argument), or to avoid immediately running all commands to create the final plot (if given as last argument).  Its purpose is to allow splitting one long statement into multiple (shorter) ones.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The above list shows all the fundamental concepts to follow the examples presented below.  The @gp and @gsp macros also accepts further arguments, but their use will be discussed in Advanced usage.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"[1]: a previous knowledge of gnuplot usage is, nevertheless, required.","category":"page"},{"location":"basic/#plots2d-1","page":"Basic usage","title":"2D plots","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Here we will show a few examples to generate 2D plots.  The examples are intentionally very simple to highlight the behavior of Gnuplot.jl.  See Examples for more complex ones.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Remember to run:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"using Gnuplot","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"before running the examples.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"using Gnuplot\nGnuplot.quitall()\nmkpath(\"assets\")\nGnuplot.splash(\"assets/logo.png\")\nsaveas(file) = save(term=\"pngcairo size 480,360 fontscale 0.8\", output=\"assets/$(file).png\")\nempty!(Gnuplot.options.init)\ngpexec(\"set term unknown\")","category":"page"},{"location":"basic/#Simple-examples-involving-just-gnuplot-commands:-1","page":"Basic usage","title":"Simple examples involving just gnuplot commands:","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"","category":"page"},{"location":"basic/#Plot-a-sinusoid:-1","page":"Basic usage","title":"Plot a sinusoid:","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp \"plot sin(x)\"\nsaveas(\"ex001\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"","category":"page"},{"location":"basic/#Plot-two-curves:-1","page":"Basic usage","title":"Plot two curves:","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp \"set key left\" \"plot sin(x)\" \"pl cos(x)\"\nsaveas(\"ex002\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"note: Note\nNote that all gnuplot commands can be abbreviated as long as the resulting string is not ambiguous.  In the example above we used pl in place of plot.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"","category":"page"},{"location":"basic/#Split-a-@gp-call-in-three-statements:-1","page":"Basic usage","title":"Split a @gp call in three statements:","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp    \"set grid\"  :-\n@gp :- \"p sin(x)\"  :-\n@gp :- \"plo cos(x)\"\nsaveas(\"ex003\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#Send-data-from-Julia-to-gnuplot:-1","page":"Basic usage","title":"Send data from Julia to gnuplot:","text":"","category":"section"},{"location":"basic/#Plot-a-parabola-1","page":"Basic usage","title":"Plot a parabola","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp (1:20).^2\nsaveas(\"ex004\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"","category":"page"},{"location":"basic/#Plot-a-parabola-with-scaled-x-axis,-lines-and-legend-1","page":"Basic usage","title":"Plot a parabola with scaled x axis, lines and legend","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"x = 1:20\n@gp \"set key left\"   x ./ 20   x.^2   \"with lines tit 'Parabola'\"\nsaveas(\"ex005\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"","category":"page"},{"location":"basic/#Multiple-datasets,-logarithmic-axis,-labels-and-colors,-etc.-1","page":"Basic usage","title":"Multiple datasets, logarithmic axis, labels and colors, etc.","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"x = 1:0.1:10\n@gp    \"set grid\" \"set key left\" \"set logscale y\"\n@gp :- \"set title 'Plot title'\" \"set label 'X label'\" \"set xrange [0:*]\"\n@gp :- x x.^0.5 \"w l tit 'Pow 0.5' dt 2 lw 2 lc rgb 'red'\"\n@gp :- x x      \"w l tit 'Pow 1'   dt 1 lw 3 lc rgb 'blue'\"\n@gp :- x x.^2   \"w l tit 'Pow 2'   dt 3 lw 2 lc rgb 'purple'\"\nsaveas(\"ex006\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"note: Note\nThe above example lacks the trailing :- symbol.  This means the plot will be updated at each command, adding one curve at a time.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"","category":"page"},{"location":"basic/#Keywords-for-common-commands-1","page":"Basic usage","title":"Keywords for common commands","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"In order to avoid typing long, and very frequently used gnuplot commands, Gnuplot.jl provides a few keywords which can be used in both @gp and @sgp calls:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"xrange=[low, high] => \"set xrange [low:high];\nyrange=[low, high] => \"set yrange [low:high];\nzrange=[low, high] => \"set zrange [low:high];\ncbrange=[low, high]=> \"set cbrange[low:high];\nkey=\"...\"  => \"set key ...\";\ntitle=\"...\"  => \"set title \\\"...\\\"\";\nxlabel=\"...\" => \"set xlabel \\\"...\\\"\";\nylabel=\"...\" => \"set ylabel \\\"...\\\"\";\nzlabel=\"...\" => \"set zlabel \\\"...\\\"\";\nxlog=true   => set logscale x;\nylog=true   => set logscale y;\nzlog=true   => set logscale z;","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"All such keywords can be abbreviated to unambiguous names.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"By using the above keywords the first lines of the previous example:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp    \"set grid\" \"set key left\" \"set logscale y\"\n@gp :- \"set title 'Plot title'\" \"set label 'X label'\" \"set xrange [0:*]\"","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"can be replaced with a shorter version:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp    \"set grid\" k=\"left\" ylog=true\n@gp :- tit=\"Plot title\" xlab=\"X label\" xr=[0,NaN]","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"where NaN in the xrange keyword means using axis autoscaling.","category":"page"},{"location":"basic/#Plot-images-1","page":"Basic usage","title":"Plot images","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Gnuplot.jl can also display images, i.e. 2D arrays:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"img = randn(Float64, 30, 50)\nimg[10,:] .= -5\n@gp img \"w image notit\"\nsaveas(\"ex007a\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Note that the first index in the img matrix corresponds to the x coordinate when the image is displayed.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"If the orientation is not the correct one you may adjust it with the gnuplot rotate= keyword (the following example requires the TestImages package to be installed):","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"using TestImages\nimg = testimage(\"lighthouse\");\n@gp \"set size square\" \"set autoscale fix\" img \"rotate=-90deg with rgbimage notit\"\nsaveas(\"ex007b\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"To display a gray image use with image in place of with rgbimage, e.g.:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"img = testimage(\"walkbridge\");\n@gp palette(:lapaz) \"set size square\" \"set autoscale fix\" img \"rotate=-0.5pi with image notit\"\nsaveas(\"ex007c\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Note that we used a custom palette (:lapaz, see Palettes and line types) and the rotation angle has been expressed in radians (-0.5pi).","category":"page"},{"location":"basic/#plots3d-1","page":"Basic usage","title":"3D plots","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"3D plots follow the same rules as 2D ones, just replace the @gp macro with @gsp and add the required columns (according to the plotting style).","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"E.g., to plot a spiral increasing in size along the X direction:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"x = 0:0.1:10pi\n@gsp cbr=[-1,1].*30  x  sin.(x) .* x  cos.(x) .* x  x./20  \"w p pt 7 ps var lc pal\"\nsaveas(\"ex008\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Note that the fourth array in the dataset, x./20, is used as by gnuplot as point size (ps var).  Also note that all the keywords discussed above can also be used in 3D plots.","category":"page"},{"location":"basic/#Palettes-and-line-types-1","page":"Basic usage","title":"Palettes and line types","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The Gnuplot.jl package comes with all the ColorSchemes palettes readily available.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"A gnuplot-compliant palette can be retrieved with palette(), and used as any other command.  The previous example may use an alternative palette with:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"x = 0:0.1:10pi\n@gsp palette(:viridis) cbr=[-1,1].*30 :-\n@gsp :-  x  sin.(x) .* x  cos.(x) .* x  x./20  \"w p pt 7 ps var lc pal\"\nsaveas(\"ex008a\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The ColorSchemes palettes can also be used to generate line types (actually just line colors), by means of the linetypes() function, e.g.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"@gp linetypes(:deepsea)\nx = 1:0.1:4pi\nfor i in 1:5\n    @gp :- x i.* sin.(x) \"w l notit lw 5\"\nend\nsaveas(\"ex009\") # hide","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(Image: )","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The list of all available palette can be retrieved with palette_names():","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"palette_names()","category":"page"},{"location":"basic/#Exporting-plots-to-files-1","page":"Basic usage","title":"Exporting plots to files","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Gnuplot.jl to export all plots (as well as multiplots, see Multiplot) to an external file using one of the many available gnuplot terminals.  To check which terminals are available in your platform type:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"terminals()","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"(see also terminal() to check your current terminal).","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Once you choose the proper terminal (i.e. format of the exported file), use the save() function to export.  As an example, all the plots in this page have been saved with:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"save(term=\"pngcairo size 480,360 fontscale 0.8\", output=\"assets/output.png\")","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Note that you can pass both the terminal name and its options via the term= keyword.  See Gnuplot terminals for further info on the terminals.","category":"page"},{"location":"basic/#Gnuplot-scripts-1","page":"Basic usage","title":"Gnuplot scripts","text":"","category":"section"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Besides exporting plots in a file Gnuplot.jl can also save a script, i.e. a file containing the minimum set of data and commands required to re-create a figure using just gnuplot.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"To generate a script for one of the example above use:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"save(\"script.gp\")","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"after the plot has been displayed.  Note that when images or large datasets are involved, save() may store the data in binary files under a directory named <script name>_data. In order to work properly both the script and the associated directory must be available in the same directory.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"E.g., the following code:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"x = 1:10\n@gp x x.^2 \"w l\"\nsave(\"script1.gp\")","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"will produce the following file, named script1.gp:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"reset session\n$data1 << EOD\n 1 1\n 2 4\n 3 9\n 4 16\n 5 25\n 6 36\n 7 49\n 8 64\n 9 81\n 10 100\nEOD\nplot  \\\n  $data1 w l\nset output","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"While the following:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"img = testimage(\"lighthouse\");\n@gp \"set size square\" \"set autoscale fix\" img \"rotate=-90deg with rgbimage notit\"\nsave(\"script2.gp\")","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"will produce:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"reset session\nset size square\nset autoscale fix\nplot  \\\n   './script2_data/jl_vH8X4k' binary array=(512, 768) rotate=-90deg with rgbimage notit\nset output","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The above scripts can be loaded into a pure gnuplot session (Julia is no longer needed) as follows:","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"gunplot> load 'script1.gp'","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"to generate a plot identical to the original one.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"The purpose of gnuplot scripts is to allow sharing all data, alongside a plot, in order to foster collaboration among scientists and replicability of results.  Moreover, a script can be used at any time to change the details of a plot, without the need to re-run the Julia code used to generate it the first time.","category":"page"},{"location":"basic/#","page":"Basic usage","title":"Basic usage","text":"Finally, the scripts are the only possible output when Dry sessions are used (i.e. when gnuplot is not available in the user platform.","category":"page"},{"location":"examples/#Examples-1","page":"Examples","title":"Examples","text":"","category":"section"},{"location":"examples/#","page":"Examples","title":"Examples","text":"The official gallery of high quality examples is maintained in a separate repository:","category":"page"},{"location":"examples/#","page":"Examples","title":"Examples","text":"https://lazarusa.github.io/gnuplot-examples/","category":"page"},{"location":"examples/#","page":"Examples","title":"Examples","text":"The examples in this documentation are intentionally very simple, in order to focus on the package functionalities.  The only relatively complex, publication-quality plot, is discussed in The cairolatex terminal section.","category":"page"},{"location":"examples/#","page":"Examples","title":"Examples","text":"Keep in mind that Gnuplot.jl is just an interface to gnuplot, so everything you can do with the latter is achievable from Julia. Further gnuplot examples can be found here:","category":"page"},{"location":"examples/#","page":"Examples","title":"Examples","text":"http://gnuplot.sourceforge.net/demo_5.2/\nhttp://www.gnuplotting.org/","category":"page"},{"location":"terminals/#Gnuplot-terminals-1","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"","category":"section"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"Gnuplot provides dozens of terminals to display plots or export them into files (see terminals() to get a list of enabled terminals on your platform).  This section discuss a few tips on how to use the most common terminals.","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"To use a specific terminal for interactive use you may either add it as initialization command for all new session with (see Options):","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"push!(Gnuplot.options.init, \"set term wxt\")","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"or directly send the command to a specific session (see Direct command execution)","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"gpexec(\"set term wxt\")","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"See official gnuplot documentation for further info on terminals and their options.","category":"page"},{"location":"terminals/#Interactive-terminals-(wxt-and-qt)-1","page":"Gnuplot terminals","title":"Interactive terminals (wxt and qt)","text":"","category":"section"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"The multiplatform wxt and qt terminals are among the most widely used ones for their nicely looking outputs on display and for their interactive capabilities.","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"You may set them as terminal with:","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"\"set term wxt size 800,600\"","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"or","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"\"set term qt  size 800,600\"","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"(the size 800,600 is optional and can be omitted).","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"Press the h key on the window to display an help message with all available keyboard shortcuts.  In particular press 6 to enable printing plot coordinates on Julia stdout (ensure mouse is enabled with m).","category":"page"},{"location":"terminals/#Plot-in-a-terminal-application-(dumb,-sixel-and-sixelgd)-1","page":"Gnuplot terminals","title":"Plot in a terminal application (dumb, sixel and sixelgd)","text":"","category":"section"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"Gnuplot supports plotting in a terminal application, with no need for X11 or other GUI support, via the dumb, sixel and sixelgd terminals.  These are extremely useful when you run Julia on a remote shell through ssh, with no X11 forwarding.  You may set these terminals with one of the following command:","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"\"set term dumb\"\n\"set term sixel\"\n\"set term sixelgd\"","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"The dumb terminal uses ASCII characters to draw a plot, while sixel and sixelgd actually use bitmaps (but require Sixel support to be enabled in the terminal, e.g. xterm -ti vt340).  A sixel plot on xterm looks as follows: (Image: )","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"The above terminals are available if gnuplot has been compiled with the --with-bitmap-terminals option enabled and Libgd (only for sixelgd).","category":"page"},{"location":"terminals/#Export-to-image-files-1","page":"Gnuplot terminals","title":"Export to image files","text":"","category":"section"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"Gnuplot provides dozens of terminals able to export on files.  Examples are:","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"cairopng to export PNG files;\npdfcairo for PDF;\njpeg for JPG;\ngif for GIF (see Animations).","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"All the above terminals support the size and fontscale options to quickly adjust the size of the rasterized image and the size of the font respectively.  E.g.:","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"save(term=\"pngcairo size 480,360 fontscale 0.8\", output=\"output.png\")","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"(see also save()).","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"Gnuplot is also able to export vector (i.e. non-raster) plots through the svg terminal.","category":"page"},{"location":"terminals/#The-cairolatex-terminal-1","page":"Gnuplot terminals","title":"The cairolatex terminal","text":"","category":"section"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"The cairolatex terminal allows to produce high quality plots by splitting the output into a PDF file (containing a rasterized image of a plot) and a .tex file (containing all the text as LaTeX code).  The following example shows how to write plot tics and an equation in LaTeX:","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"x = LinRange(-2pi, 2pi, 1000)\n@gp t=\"Polynomial approximation of sin(x)\"  \"set style fill transparent solid 0.6 noborder\"\n@gp :- raw\"\"\"set xtics ('$-\\pi$' -pi, '$-\\pi/2$' -pi/2, 0, '$\\pi/2$' pi/2, '$\\pi$' pi)\"\"\"\n@gp :- xr=3.8.*[-1, 1] yr=[-1.5,1.5] key=\"box opaque left horiz\" linetypes(:Blues_3) \"set grid front\"\nlatex = raw\"\"\"\\begin{minipage}[c]{\\textwidth}\\begin{equation*}\"\"\" *\n\traw\"\"\"\\sin(x) = \\sum_0^{+\\infty} \\frac{(-1)^n}{(2n + 1)!} x^{2n+1}\"\"\" * \n\traw\"\"\"\\end{equation*} \\end{minipage}\"\"\"\n@gp :- \"set label at graph 0.62,0.2 front center '$latex'\"\napprox = fill(0., length(x));\n@gp :- x sin.(x) approx .+= x           \"w filledcurve t 'n=0' lt 1\"\n@gp :- x sin.(x) approx .+= -x.^3/6     \"w filledcurve t 'n=1' lt 2\"\n@gp :- x sin.(x) approx .+=  x.^5/120   \"w filledcurve t 'n=2' lt 3\"\n@gp :- x sin.(x) approx .+= -x.^7/5040  \"w filledcurve t 'n=3' lt 4\"\n@gp :- x sin.(x)                        \"w l t 'sin(x)' lw 2 lc rgb 'black'\"\nsave(term=\"cairolatex pdf input color dashed size 5in,3.3in\", output=\"test.tex\")","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"warning: Warning\nIf you add a path in the output= keyword this will also be copied in the the .tex file.  I suggest to use just filenames, with no path, in order to avoid possible errors when compiling LaTeX code.","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"The two output files (test.tex and test.pdf) can then be included in a LaTeX file as follows:","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"\\documentclass{article}\n\\usepackage{amsmath}\n\\usepackage{graphicx}\n\\usepackage{color}\n\n\\begin{document}\n\\begin{figure}\n  \\input{test.tex}\n\\end{figure}\n\\end{document}","category":"page"},{"location":"terminals/#","page":"Gnuplot terminals","title":"Gnuplot terminals","text":"And the output is: (Image: )","category":"page"},{"location":"advanced/#Advanced-usage-1","page":"Advanced usage","title":"Advanced usage","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Here we will show a few advanced techniques for data visualization using Gnuplot.jl.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"using Gnuplot\nGnuplot.quitall()\nmkpath(\"assets\")\nsaveas(file) = save(term=\"pngcairo size 480,360 fontscale 0.8\", output=\"assets/$(file).png\")\nempty!(Gnuplot.options.init)\ngpexec(\"set term unknown\")","category":"page"},{"location":"advanced/#Named-datasets-1","page":"Advanced usage","title":"Named datasets","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A dataset may have an associated name whose purpose is to use it multiple times for plotting, while sending it only once to gnuplot. A dataset name must begin with a $.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A named dataset is defined as a Pair{String, Tuple}, e.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"\"\\$name\" => (1:10,)","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"and can be used as an argument to both @gp and gsp, e.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"x = range(-2pi, stop=2pi, length=100);\ny = sin.(x)\nname = \"\\$MyDataSet1\"\n@gp name=>(x, y) \"plot $name w l lc rgb 'black'\" \"pl $name u 1:(1.5*\\$2) w l lc rgb 'red'\"\nsaveas(\"ex010\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Both curves use the same input data, but the red curve has the second column (\\$2, corresponding to the y value) multiplied by a factor 1.5.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A named dataset comes in hand also when using gnuplot to fit experimental data to a model, e.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"# Generate data and some noise to simulate measurements\nx = range(-2pi, stop=2pi, length=20);\ny = 1.5 * sin.(0.3 .+ 0.7x);\nerr = 0.1 * maximum(abs.(y)) .* fill(1, size(x));\ny += err .* randn(length(x));\nname = \"\\$MyDataSet1\"\n\n@gp    \"f(x) = a * sin(b + c*x)\"     :- # define an analytical model\n@gp :- \"a=1\" \"b=1\" \"c=1\"             :- # set parameter initial values\n@gp :- name=>(x, y, err)             :- # define a named dataset\n@gp :- \"fit f(x) $name via a, b, c;\"    # fit the data","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"The parameter best fit values can be retrieved as follows:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"@info(\"Best fit values:\",\na = gpexec(\"print a\"),\nb = gpexec(\"print b\"),\nc = gpexec(\"print c\"))","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A named dataset is available until the session is reset, i.e. as long as :- is used as first argument to @gp.","category":"page"},{"location":"advanced/#Multiplot-1","page":"Advanced usage","title":"Multiplot","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.jl can draw multiple plots in the same figure by exploiting the multiplot command.  Each plot is identified by a positive integer number, which can be used as argument to @gp to redirect commands to the appropriate plot.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Continuing previous example we can plot both data and best fit model (in plot 1) and residuals (in plot 2):","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"@gp :- \"set multiplot layout 2,1\"\n@gp :- 1 \"p $name w errorbars t 'Data'\" \n@gp :-   \"p $name u 1:(f(\\$1)) w l t 'Best fit model'\"\n@gp :- 2 \"p $name u 1:((f(\\$1)-\\$2) / \\$3):(1) w errorbars t 'Resid. [{/Symbol s}]'\"\n@gp :-   [extrema(x)...] [0,0] \"w l notit dt 2 lc rgb 'black'\" # reference line\nsaveas(\"ex011\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Note that the order of the plots is not relevant, i.e. we would get the same results with:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"@gp :- \"set multiplot layout 2,1\"\n@gp :- 2 \"p $name u 1:((f(\\$1)-\\$2) / \\$3):(1) w errorbars t 'Resid. [{/Symbol s}]'\"\n@gp :-   [extrema(x)...] [0,0] \"w l notit dt 2 lc rgb 'black'\" # reference line\n@gp :- 1 \"p $name w errorbars t 'Data'\" \n@gp :-   \"p $name u 1:(f(\\$1)) w l t 'Best fit model'\"","category":"page"},{"location":"advanced/#Mixing-2D-and-3D-plots-1","page":"Advanced usage","title":"Mixing 2D and 3D plots","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A multiplot can also mix 2D and 3D plots:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"x = y = -10:0.33:10\n@gp \"set multiplot layout 1,2\"\n\n# 2D\n@gp :- 1 x sin.(x) ./ x \"w l notit\"\n\n# 3D\nsinc2d(x,y) = sin.(sqrt.(x.^2 + y.^2))./sqrt.(x.^2+y.^2)\nfxy = [sinc2d(x,y) for x in x, y in y]\n@gsp :- 2 x y fxy \"w pm3d notit\"\nsaveas(\"ex012\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#Multiple-sessions-1","page":"Advanced usage","title":"Multiple sessions","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.jl can handle multiple sessions, i.e. multiple gnuplot processes running simultaneously.  Each session is identified by an ID (sid::Symbol, in the documentation).","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"In order to redirect commands to a specific session simply insert a symbol into your @gp or @gsp call, e.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"@gp :GP1 \"plot sin(x)\"    # opens first window\n@gp :GP2 \"plot sin(x)\"    # opens secondo window\n@gp :- :GP1 \"plot cos(x)\" # add a plot on first window","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"The session ID can appear in every position in the argument list, but only one ID can be present in each call.  If the session ID is not specified the :default session is considered.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"The names of all current sessions can be retrieved with session_names():","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"println(session_names())","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"To quit a specific session use Gnuplot.quit():","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.quit(:GP1)","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"The output value is the exit status of the underlying gnuplot process.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"You may also quit all active sessions at once with Gnuplot.quitall():","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.quitall()\ngpexec(\"set term unknown\") # hide","category":"page"},{"location":"advanced/#Histograms-1","page":"Advanced usage","title":"Histograms","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.jl provides facilities to compute and display histograms, through the hist() function.  E.g., to quickly preview an histogram:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"x = randn(1000);\n@gp hist(x)\nsaveas(\"ex013a\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A finer control on the output is achieved by setting the range to consider (range= keyword) and either the bin size (bs=) or the total number of bins (nbins=) in the histogram.  See hist() documentation for further information.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Moreover, the hist() return a Gnuplot.Histogram1D structure, whose content can be exploited to customize histogram appearence, e.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"x = randn(1000);\nh = hist(x, range=3 .* [-1,1], bs=0.5)\n@gp h.bins h.counts \"w histep t 'Data' lc rgb 'red'\"\nsaveas(\"ex013b\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.jl also allows to compute 2D histograms by passing two vectors (with the same lengths) to hist().  A quick preview is simply obtained by:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"x = randn(10_000)\ny = randn(10_000)\n@gp \"set size ratio -1\" hist(x, y)\nsaveas(\"ex014a\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Again, a finer control can be achieved by specifying ranges, bin size or number of bins (along both dimensions) and by explicitly using the content of the returned Gnuplot.Histogram2D structure:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"h = hist(x, y, bs1=0.25, nbins2=20, range1=[-3,3], range2=[-3,3])\n@gp \"set size ratio -1\" h.bins1 h.bins2 h.counts \"w image notit\"\nsaveas(\"ex014b\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Alternatively, 2D histograms may be displayed using the boxxyerror plot style which allows more flexibility in, e.g., handling transparencies and drawing the histogram grid.  In this case the data can be prepared using the boxxyerror() function, as follows:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"box = boxxyerror(h.bins1, h.bins2, cartesian=true)\n@gp \"set size ratio -1\" \"set style fill solid 0.5 border lc rgb 'gray'\" :-\n@gp :- box... h.counts \"w boxxyerror notit lc pal\"\nsaveas(\"ex014c\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#Contour-lines-1","page":"Advanced usage","title":"Contour lines","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Although gnuplot already handles contours by itself (with the set contour command), Gnuplot.jl provides a way to calculate contour lines paths before displaying them, using the contourlines() function.  We may use it for, e.g., plot contour lines with customized widths and palette, according to their z level.  Continuing previous example:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"clines = contourlines(h.bins1, h.bins2, h.counts, cntrparam=\"levels discrete 10, 30, 60, 90\");\nfor i in 1:length(clines)\n    @gp :- clines[i].data \"w l t '$(clines[i].z)' lw $i lc pal\" :-\nend\n@gp :- key=\"outside top center box horizontal\"\nsaveas(\"ex014d\") # hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#Animations-1","page":"Advanced usage","title":"Animations","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"The Multiplot capabilities can also be used to stack plots one above the other in order to create an animation, as in the following example:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"x = y = -10:0.33:10\nfz(x,y) = sin.(sqrt.(x.^2 + y.^2))./sqrt.(x.^2+y.^2)\nfxy = [fz(x,y) for x in x, y in y]\n@gsp \"set xyplane at 0\" \"unset colorbox\" cb=[-1,1] zr=[-1,1] \nframe = 0\nfor direction in [-1,1]\n    for factor in -1:0.1:1\n        global frame += 1\n        @gsp :- frame x y direction * factor .* fxy \"w pm3d notit\" :-\n    end\nend\n@gsp","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Here the frame variable is used as multiplot index. The animation can be saved in a GIF file with:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"save(term=\"gif animate size 480,360 delay 5\", output=\"assets/animation.gif\")","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"(Image: )","category":"page"},{"location":"advanced/#Direct-command-execution-1","page":"Advanced usage","title":"Direct command execution","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"When gnuplot commands are passed to @gp or @gsp they are stored in a session for future use, or to be saved in Gnuplot scripts.  If you simply wish to execute a command, without storing it in the session, use gpexec.  E.g. if you wish to temporarily change the current terminal:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"gpexec(\"set term wxt\");","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"The gnuplot process replies are returned as a string, e.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"gpexec(\"print GPVAL_TERM\")\ngpexec(\"set term unknown\")  #hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"You may also provide a session ID as first argument (see Multiple sessions) to redirect the command to a specific session.","category":"page"},{"location":"advanced/#Dry-sessions-1","page":"Advanced usage","title":"Dry sessions","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"A \"dry session\" is a session with no underlying gnuplot process.  To enable dry sessions type:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.options.dry = true;\nGnuplot.options.dry = false  #hide","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"before starting a session (see also Options).  Note that the dry option is a global one, i.e. it affects all sessions started after setting the option.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Clearly, no plot can be generated in dry sessions. Still, they are useful to run Gnuplot.jl code without raising errors (no attempt will be made to communicate with the underlying process).  Moreover, Gnuplot scripts can also be generated in a dry session, without the additional overhead of sending data to the gnuplot process.","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"If a gnuplot process can not be started the package will print a warning, and automatically enable dry sessions.","category":"page"},{"location":"advanced/#Options-1","page":"Advanced usage","title":"Options","text":"","category":"section"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Thepackage options are stored in a global structure available in Julia as Gnuplot.option (the type of the structure is Gnuplot.Options).  The most important settings are as follows:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"dry::Bool: if true all new sessions will be started Dry sessions.  Default is false, but if the package is not able to start a gnuplot it will automatically switch to false;\ninit::Vector{String}: This vector can be used to push! initialization commands to be executed when a new session is started.  Default is an empty vector.  It can be used to, e.g., set a custom terminal for all new sessions:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"push!(Gnuplot.options.init, \"set term sixelgd\");","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Note that this is a global option, i.e. it will affect all new sessions.  Also note that the commands in Gnuplot.options.init are not saved in Gnuplot scripts;","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"verbose::Bool: a flag to set verbosity of the package.  In particular if it is true all communication with the underlying process will be printed on stdout. E.g.:","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"gpexec(\"set term wxt\")  #hide\nGnuplot.options.verbose = true;\nx = 1.:10;\n@gp x x.^2 \"w l t 'Parabola'\"\nsave(term=\"pngcairo size 480,360 fontscale 0.8\", output=\"output.png\")","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Each line reports the package name (GNUPLOT), the session name (default), the command or string being sent to gnuplot process, and the returned response (line starting with ->).  Default value is false;","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"Gnuplot.options.verbose = false\ngpexec(\"set term unknown\")","category":"page"},{"location":"advanced/#","page":"Advanced usage","title":"Advanced usage","text":"cmd::String: command to start the gnuplot process, default value is \"gnuplot\".  If you need to specify a custom path to the gnuplot executable you may change this value;\ndefault::Symbol: default session name, i.e. the session that will be used when no session name is provided;\npreferred_format::Symbol: preferred format to send data to gnuplot.  Value must be one of:\nbin: provides best performances for large datasets, but uses temporary files;\ntext: may be slow for large datasets, but no temporary file is involved;\nauto (default) automatically choose the best strategy.","category":"page"},{"location":"install/#Installation-1","page":"Installation","title":"Installation","text":"","category":"section"},{"location":"install/#Prerequisite-1","page":"Installation","title":"Prerequisite","text":"","category":"section"},{"location":"install/#","page":"Installation","title":"Installation","text":"In order to use the Gnuplot.jl package you'll need gnuplot (ver. >= 5.0) installed on your system, and its executable available in your path.","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"If gnuplot is not available in your platform you can still use Gnuplot.jl in \"dry\" mode (see Dry sessions).  In this case a plot can not be generated, but you may still generate Gnuplot scripts.","category":"page"},{"location":"install/#Package-installation-1","page":"Installation","title":"Package installation","text":"","category":"section"},{"location":"install/#","page":"Installation","title":"Installation","text":"In the Julia REPL type:","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"julia> ]add Gnuplot","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"Then hit backspace key to return to Julia REPL.","category":"page"},{"location":"install/#Check-installation-1","page":"Installation","title":"Check installation","text":"","category":"section"},{"location":"install/#","page":"Installation","title":"Installation","text":"Check execution and version of the underlying gnuplot process:","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"using Gnuplot\nGnuplot.gpversion()","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"Generate the first plot:","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"julia> @gp 1:9","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"Test default terminal capabilities:","category":"page"},{"location":"install/#","page":"Installation","title":"Installation","text":"test_terminal()","category":"page"},{"location":"#Gnuplot.jl-1","page":"Home","title":"Gnuplot.jl","text":"","category":"section"},{"location":"#A-Julia-interface-to-gnuplot.-1","page":"Home","title":"A Julia interface to gnuplot.","text":"","category":"section"},{"location":"#","page":"Home","title":"Home","text":"The Gnuplot.jl package allows easy and fast use of gnuplot as a data visualization tool in Julia.  Have a look at Basic usage and Examples for a quick overview.  The package main features are:","category":"page"},{"location":"#","page":"Home","title":"Home","text":"fast time-to-first-plot;\nextremely concise yet meaningful syntax, makes it ideal for interactive data exploration;\nno need to learn new API functions or keywords: only two macros (@gp for 2D plots, @gsp for 3D plots) and a basic knowledge of gnuplot are enough to generate most plots;\ntransparent interface between Julia and gnuplot to exploit all functionalities of the latter, both present and future ones;\navailability of all the palettes from ColorSchemes;\nsupport for multiple plots in one window, multiple plotting windows, as well as ASCII and Sixel plots (to plot directly in a terminal);\nsupport for histograms (both 1D and 2D);\nenhanced support for contour plots;\nexport to a huge number of formats such as pdf, png, LaTeX, svg, etc. (actually all those supported by gnuplot);\nsave sessions into gnuplot scripts enables easy plot reproducibility and modifications.","category":"page"},{"location":"#","page":"Home","title":"Home","text":"If you're unfamiliar with gnuplot have a look at:","category":"page"},{"location":"#","page":"Home","title":"Home","text":"Main gnuplot site\ngnuplot FAQ","category":"page"},{"location":"#Yet-another-plotting-package?-1","page":"Home","title":"Yet another plotting package?","text":"","category":"section"},{"location":"#","page":"Home","title":"Home","text":"A powerful plotting framework is among the most important tool in the toolbox of any modern scientist and engineer.  As such, it is hard to find a single package to fit all needs, and many solutions are indeed available in the Julia ecosystem.","category":"page"},{"location":"#","page":"Home","title":"Home","text":"Gnuplot.jl package fills the niche of users who needs:","category":"page"},{"location":"#","page":"Home","title":"Home","text":"publication-quality plots, by exploiting the capabilities of a widely used tool such as gnuplot, and its many output formats available;\na well-documented framework, by taking advantage of all the gnuplot documentation, tutorials and examples available on the web;\na fast response, by relying on an external program (rather than on a large Julia code base);\nan interactive data exploration framework, by exposing a carefully designed, extremely concise and easy to remember syntax (at least for users with minimal gnuplot knowledge);\na procedure to foster plot reproducibility by sharing just the data and commands in the form of gnuplot scripts, rather than the original Julia code.","category":"page"},{"location":"#","page":"Home","title":"Home","text":"Unlike other packages Gnuplot.jl is not a pure Julia solution as it depends on an external package to actually generate plots.  However, if gnuplot is not available on a given platform, the package could still be used in \"dry\" mode, and no error for a missing dependency will be raised (see Dry sessions).","category":"page"},{"location":"#","page":"Home","title":"Home","text":"The Gnuplot.jl package development follows a minimalistic approach: it is essentially a thin layer to send data and commands to gnuplot.  This way all underlying capabilities, both present and future ones, are automatically exposed to Julia user, with no need to implement dedicated wrappers.","category":"page"},{"location":"#","page":"Home","title":"Home","text":"The functionalities 1, 2 and 3 listed above are similar to those provided by the Gaston package.  Gnuplot.jl also provides features 4 and 5, as well as the minimalistic approach.","category":"page"},{"location":"#Do-Gnuplot.jl-suits-my-needs?-1","page":"Home","title":"Do Gnuplot.jl suits my needs?","text":"","category":"section"},{"location":"#","page":"Home","title":"Home","text":"Any modern plotting package is able to produce a simple scatter plot, with custom symbols, line styles, colors and axis labels.  Indeed, this is exactly the example that is reported in every package documentation (also here: see 2D plots). Still, producing complex and publication-quality plots is not an easy task.  As a consequence is also not easy to determine whether a package can cope with the most difficult cases (unless you actually try it out) and a reasonable choice is typically to rely on the size of the user base, the availability of documentation / tutorials, and the possibility to preview complex examples.","category":"page"},{"location":"#","page":"Home","title":"Home","text":"Gnuplot.jl aims to be ready for even the most challenging plots by relying on the widely and long lasting used gnuplot application, and by allowing each native feature (both present and future ones) to be immediately available in the Julia language.  Moreover, Gnuplot.jl provides a unique syntax specifically aimed to increase productivity while performing interactive data exploration.","category":"page"},{"location":"#","page":"Home","title":"Home","text":"Last but not least, have a look at the Gnuplot.jl Examples page.","category":"page"},{"location":"#Notation-1","page":"Home","title":"Notation","text":"","category":"section"},{"location":"#","page":"Home","title":"Home","text":"In this documentation:","category":"page"},{"location":"#","page":"Home","title":"Home","text":"Gnuplot.jl refers to the Julia package;\ngnuplot refers to the gnuplot application.","category":"page"},{"location":"#Table-of-Contents-1","page":"Home","title":"Table of Contents","text":"","category":"section"},{"location":"#","page":"Home","title":"Home","text":"Pages = [\"index.md\", \"install.md\", \"basic.md\", \"advanced.md\", \"tips.md\", \"examples.md\", \"api.md\"]","category":"page"}]
}