How to export R plots as TEX files? -

let's have simple plot this:

mu    = matrix(c(0,0),2,1) sigma = matrix(c(1,0,0,1),2,2) x = mvrnorm(1000, mu, sigma)  plot(x,pch=20,panel.first = grid(10, lty = 2, lwd = 2)) 

how can export plot .tex file fromat? mean direct output tex , don't want use tikz.

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here how in gnuplot

set terminal latex set output "eg2.tex" set size 5/5., 4/3. set format xy "$%g$" set title ’this plot of $y=\sin(x)$’ set xlabel ’this $x$ axis’ set ylabel ’this is\\the\\$y$ axis’ plot [0:6.28] [0:1] sin(x) 

and include tex file in tex document.

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i may making mistake out put of above gnuplot following:

% gnuplot: latex picture \setlength{\unitlength}{0.240900pt} \ifx\plotpoint\undefined\newsavebox{\plotpoint}\fi \sbox{\plotpoint}{\rule[-0.200pt]{0.400pt}{0.400pt}}% \begin{picture}(1500,900)(0,0) \sbox{\plotpoint}{\rule[-0.200pt]{0.400pt}{0.400pt}}% \put(110.0,82.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(90,82){\makebox(0,0)[r]{$0$}} \put(1419.0,82.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(110.0,237.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(90,237){\makebox(0,0)[r]{$0.2$}} \put(1419.0,237.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(110.0,393.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(90,393){\makebox(0,0)[r]{$0.4$}} \put(1419.0,393.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(110.0,548.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(90,548){\makebox(0,0)[r]{$0.6$}} \put(1419.0,548.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(110.0,704.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(90,704){\makebox(0,0)[r]{$0.8$}} \put(1419.0,704.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(110.0,859.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(90,859){\makebox(0,0)[r]{$1$}} \put(1419.0,859.0){\rule[-0.200pt]{4.818pt}{0.400pt}} \put(110.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(110,41){\makebox(0,0){$0$}} \put(110.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(322.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(322,41){\makebox(0,0){$1$}} \put(322.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(533.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(533,41){\makebox(0,0){$2$}} \put(533.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(745.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(745,41){\makebox(0,0){$3$}} \put(745.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(956.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(956,41){\makebox(0,0){$4$}} \put(956.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(1168.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(1168,41){\makebox(0,0){$5$}} \put(1168.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(1380.0,82.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(1380,41){\makebox(0,0){$6$}} \put(1380.0,839.0){\rule[-0.200pt]{0.400pt}{4.818pt}} \put(110.0,82.0){\rule[-0.200pt]{0.400pt}{187.179pt}} \put(110.0,82.0){\rule[-0.200pt]{320.156pt}{0.400pt}} \put(1439.0,82.0){\rule[-0.200pt]{0.400pt}{187.179pt}} \put(110.0,859.0){\rule[-0.200pt]{320.156pt}{0.400pt}} \put(110,82){\usebox{\plotpoint}} \multiput(110.58,82.00)(0.493,1.924){23}{\rule{0.119pt}{1.608pt}} \multiput(109.17,82.00)(13.000,45.663){2}{\rule{0.400pt}{0.804pt}} \multiput(123.58,131.00)(0.494,1.782){25}{\rule{0.119pt}{1.500pt}} \multiput(122.17,131.00)(14.000,45.887){2}{\rule{0.400pt}{0.750pt}} \multiput(137.58,180.00)(0.493,1.924){23}{\rule{0.119pt}{1.608pt}} \multiput(136.17,180.00)(13.000,45.663){2}{\rule{0.400pt}{0.804pt}} \multiput(150.58,229.00)(0.494,1.745){25}{\rule{0.119pt}{1.471pt}} \multiput(149.17,229.00)(14.000,44.946){2}{\rule{0.400pt}{0.736pt}} \multiput(164.58,277.00)(0.493,1.845){23}{\rule{0.119pt}{1.546pt}} \multiput(163.17,277.00)(13.000,43.791){2}{\rule{0.400pt}{0.773pt}} \multiput(177.58,324.00)(0.494,1.709){25}{\rule{0.119pt}{1.443pt}} \multiput(176.17,324.00)(14.000,44.005){2}{\rule{0.400pt}{0.721pt}} \multiput(191.58,371.00)(0.493,1.765){23}{\rule{0.119pt}{1.485pt}} \multiput(190.17,371.00)(13.000,41.919){2}{\rule{0.400pt}{0.742pt}} \multiput(204.58,416.00)(0.493,1.726){23}{\rule{0.119pt}{1.454pt}} \multiput(203.17,416.00)(13.000,40.982){2}{\rule{0.400pt}{0.727pt}} \multiput(217.58,460.00)(0.494,1.525){25}{\rule{0.119pt}{1.300pt}} \multiput(216.17,460.00)(14.000,39.302){2}{\rule{0.400pt}{0.650pt}} \multiput(231.58,502.00)(0.493,1.567){23}{\rule{0.119pt}{1.331pt}} \multiput(230.17,502.00)(13.000,37.238){2}{\rule{0.400pt}{0.665pt}} \multiput(244.58,542.00)(0.494,1.415){25}{\rule{0.119pt}{1.214pt}} \multiput(243.17,542.00)(14.000,36.480){2}{\rule{0.400pt}{0.607pt}} \multiput(258.58,581.00)(0.493,1.448){23}{\rule{0.119pt}{1.238pt}} \multiput(257.17,581.00)(13.000,34.430){2}{\rule{0.400pt}{0.619pt}} \multiput(271.58,618.00)(0.494,1.268){25}{\rule{0.119pt}{1.100pt}} \multiput(270.17,618.00)(14.000,32.717){2}{\rule{0.400pt}{0.550pt}} \multiput(285.58,653.00)(0.493,1.250){23}{\rule{0.119pt}{1.085pt}} \multiput(284.17,653.00)(13.000,29.749){2}{\rule{0.400pt}{0.542pt}} \multiput(298.58,685.00)(0.493,1.171){23}{\rule{0.119pt}{1.023pt}} \multiput(297.17,685.00)(13.000,27.877){2}{\rule{0.400pt}{0.512pt}} \multiput(311.58,715.00)(0.494,0.974){25}{\rule{0.119pt}{0.871pt}} \multiput(310.17,715.00)(14.000,25.191){2}{\rule{0.400pt}{0.436pt}} \multiput(325.58,742.00)(0.493,0.972){23}{\rule{0.119pt}{0.869pt}} \multiput(324.17,742.00)(13.000,23.196){2}{\rule{0.400pt}{0.435pt}} \multiput(338.58,767.00)(0.494,0.791){25}{\rule{0.119pt}{0.729pt}} \multiput(337.17,767.00)(14.000,20.488){2}{\rule{0.400pt}{0.364pt}} \multiput(352.58,789.00)(0.493,0.734){23}{\rule{0.119pt}{0.685pt}} 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\multiput(459.00,855.93)(1.123,-0.482){9}{\rule{0.967pt}{0.116pt}} \multiput(459.00,856.17)(10.994,-6.000){2}{\rule{0.483pt}{0.400pt}} \multiput(472.00,849.93)(0.890,-0.488){13}{\rule{0.800pt}{0.117pt}} \multiput(472.00,850.17)(12.340,-8.000){2}{\rule{0.400pt}{0.400pt}} \multiput(486.00,841.92)(0.539,-0.492){21}{\rule{0.533pt}{0.119pt}} \multiput(486.00,842.17)(11.893,-12.000){2}{\rule{0.267pt}{0.400pt}} \multiput(499.00,829.92)(0.497,-0.494){25}{\rule{0.500pt}{0.119pt}} \multiput(499.00,830.17)(12.962,-14.000){2}{\rule{0.250pt}{0.400pt}} \multiput(513.58,814.29)(0.493,-0.695){23}{\rule{0.119pt}{0.654pt}} \multiput(512.17,815.64)(13.000,-16.643){2}{\rule{0.400pt}{0.327pt}} \multiput(526.58,796.21)(0.494,-0.717){25}{\rule{0.119pt}{0.671pt}} \multiput(525.17,797.61)(14.000,-18.606){2}{\rule{0.400pt}{0.336pt}} \multiput(540.58,775.52)(0.493,-0.933){23}{\rule{0.119pt}{0.838pt}} \multiput(539.17,777.26)(13.000,-22.260){2}{\rule{0.400pt}{0.419pt}} \multiput(553.58,751.26)(0.493,-1.012){23}{\rule{0.119pt}{0.900pt}} \multiput(552.17,753.13)(13.000,-24.132){2}{\rule{0.400pt}{0.450pt}} \multiput(566.58,725.26)(0.494,-1.011){25}{\rule{0.119pt}{0.900pt}} \multiput(565.17,727.13)(14.000,-26.132){2}{\rule{0.400pt}{0.450pt}} \multiput(580.58,696.63)(0.493,-1.210){23}{\rule{0.119pt}{1.054pt}} \multiput(579.17,698.81)(13.000,-28.813){2}{\rule{0.400pt}{0.527pt}} \multiput(593.58,665.55)(0.494,-1.231){25}{\rule{0.119pt}{1.071pt}} \multiput(592.17,667.78)(14.000,-31.776){2}{\rule{0.400pt}{0.536pt}} \multiput(607.58,631.11)(0.493,-1.369){23}{\rule{0.119pt}{1.177pt}} \multiput(606.17,633.56)(13.000,-32.557){2}{\rule{0.400pt}{0.588pt}} \multiput(620.58,596.08)(0.494,-1.378){25}{\rule{0.119pt}{1.186pt}} \multiput(619.17,598.54)(14.000,-35.539){2}{\rule{0.400pt}{0.593pt}} \multiput(634.58,557.48)(0.493,-1.567){23}{\rule{0.119pt}{1.331pt}} \multiput(633.17,560.24)(13.000,-37.238){2}{\rule{0.400pt}{0.665pt}} \multiput(647.58,517.35)(0.493,-1.607){23}{\rule{0.119pt}{1.362pt}} \multiput(646.17,520.17)(13.000,-38.174){2}{\rule{0.400pt}{0.681pt}} \multiput(660.58,476.48)(0.494,-1.562){25}{\rule{0.119pt}{1.329pt}} \multiput(659.17,479.24)(14.000,-40.242){2}{\rule{0.400pt}{0.664pt}} \multiput(674.58,432.96)(0.493,-1.726){23}{\rule{0.119pt}{1.454pt}} \multiput(673.17,435.98)(13.000,-40.982){2}{\rule{0.400pt}{0.727pt}} \multiput(687.58,389.13)(0.494,-1.672){25}{\rule{0.119pt}{1.414pt}} \multiput(686.17,392.06)(14.000,-43.065){2}{\rule{0.400pt}{0.707pt}} \multiput(701.58,342.58)(0.493,-1.845){23}{\rule{0.119pt}{1.546pt}} \multiput(700.17,345.79)(13.000,-43.791){2}{\rule{0.400pt}{0.773pt}} \multiput(714.58,295.89)(0.494,-1.745){25}{\rule{0.119pt}{1.471pt}} \multiput(713.17,298.95)(14.000,-44.946){2}{\rule{0.400pt}{0.736pt}} \multiput(728.58,247.45)(0.493,-1.884){23}{\rule{0.119pt}{1.577pt}} \multiput(727.17,250.73)(13.000,-44.727){2}{\rule{0.400pt}{0.788pt}} \multiput(741.58,199.33)(0.493,-1.924){23}{\rule{0.119pt}{1.608pt}} \multiput(740.17,202.66)(13.000,-45.663){2}{\rule{0.400pt}{0.804pt}} \multiput(754.58,150.77)(0.494,-1.782){25}{\rule{0.119pt}{1.500pt}} \multiput(753.17,153.89)(14.000,-45.887){2}{\rule{0.400pt}{0.750pt}} \multiput(768.59,101.42)(0.485,-1.942){11}{\rule{0.117pt}{1.586pt}} \multiput(767.17,104.71)(7.000,-22.709){2}{\rule{0.400pt}{0.793pt}} \put(110.0,82.0){\rule[-0.200pt]{0.400pt}{187.179pt}} \put(110.0,82.0){\rule[-0.200pt]{320.156pt}{0.400pt}} \put(1439.0,82.0){\rule[-0.200pt]{0.400pt}{187.179pt}} \put(110.0,859.0){\rule[-0.200pt]{320.156pt}{0.400pt}} \end{picture} 

now saved above tex file , include tex file graphics in tex document never pdf file believe.

if reason don't want use tikz , excellent tikzdevice package, try ?pictex, its page suggests it's not operational.

pictex() plot(1,1) dev.off()  \hbox{\beginpicture \setcoordinatesystem units <1pt,1pt> \setplotarea x 0 361.35, y 0 289.08 \setlinear \font\picfont cmss10\picfont \font\picfont cmss10 @ 10pt\picfont \font\picfont cmss10 @ 10pt\picfont \circulararc 360 degrees 180.68 164.79 center @ 180.68 162.54 \setsolid \plot 58.94 61.20 302.41 61.20 / \setsolid \plot 58.94 61.20 58.94 55.20 / \setsolid \plot 119.81 61.20 119.81 55.20 / \setsolid \plot 180.68 61.20 180.68 55.20 / \setsolid \plot 241.54 61.20 241.54 55.20 / \setsolid \plot 302.41 61.20 302.41 55.20 / \put {0.6}  [lb] <0.00pt,0.00pt> @ 52.55 37.20 \put {0.8}  [lb] <0.00pt,0.00pt> @ 113.42 37.20 \put {1.0}  [lb] <0.00pt,0.00pt> @ 174.29 37.20 \put {1.2}  [lb] <0.00pt,0.00pt> @ 235.15 37.20 \put {1.4}  [lb] <0.00pt,0.00pt> @ 296.02 37.20 \setsolid \plot 49.20 68.71 49.20 256.37 / \setsolid \plot 49.20 68.71 43.20 68.71 / \setsolid \plot 49.20 115.62 43.20 115.62 / \setsolid \plot 49.20 162.54 43.20 162.54 / \setsolid \plot 49.20 209.46 43.20 209.46 / \setsolid \plot 49.20 256.37 43.20 256.37 / \put {\rotatebox{90}{0.6} } [rb] <0.00pt,0.00pt> @ 37.20 62.32 \put {\rotatebox{90}{0.8} } [rb] <0.00pt,0.00pt> @ 37.20 109.23 \put {\rotatebox{90}{1.0} } [rb] <0.00pt,0.00pt> @ 37.20 156.15 \put {\rotatebox{90}{1.2} } [rb] <0.00pt,0.00pt> @ 37.20 203.07 \put {\rotatebox{90}{1.4} } [rb] <0.00pt,0.00pt> @ 37.20 249.98 \setsolid \plot 49.20 61.20 312.15 61.20 / \plot 312.15 61.20 312.15 263.88 / \plot 312.15 263.88 49.20 263.88 / \plot 49.20 263.88 49.20 61.20 / \put {1}  [lb] <0.00pt,0.00pt> @ 178.17 13.20 \put {\rotatebox{90}{1} } [rb] <0.00pt,0.00pt> @ 13.20 160.04 \endpicture } 

last resort, write own device, or use r–gnuplot interface (teachingdemos has one, apparently), highly doubt it's worth it.