2D line plot
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Syntax
plot(X,Y)
plot(X,Y,LineSpec)
plot(X1,Y1,...,Xn,Yn)
plot(X1,Y1,LineSpec1,...,Xn,Yn,LineSpecn)
plot(Y)
plot(Y,LineSpec)
plot(tbl,xvar,yvar)
plot(tbl,yvar)
plot(ax,___)
plot(___,Name,Value)
p = plot(___)
Description
Vector and Matrix Data
example
plot(X,Y)
creates a 2D line plot of the data in Y
versus the corresponding values in X
.
To plot a set of coordinates connected by line segments, specify
X
andY
as vectors of the same length.To plot multiple sets of coordinates on the same set of axes, specify at least one of
X
orY
as a matrix.
plot(X,Y,LineSpec)
creates the plot using the specified line style, marker, and color.
example
plot(X1,Y1,...,Xn,Yn)
plots multiple pairs of x and ycoordinates on the same set of axes. Use this syntax as an alternative to specifying coordinates as matrices.
example
plot(X1,Y1,LineSpec1,...,Xn,Yn,LineSpecn)
assigns specific line styles, markers, and colors to each xy pair. You can specify LineSpec
for some xy pairs and omit it for others. For example, plot(X1,Y1,"o",X2,Y2)
specifies markers for the first xy pair but not for the second pair.
example
plot(Y)
plots Y
against an implicit set of xcoordinates.
If
Y
is a vector, the xcoordinates range from 1 tolength(Y)
.If
Y
is a matrix, the plot contains one line for each column inY
. The xcoordinates range from 1 to the number of rows inY
.
If Y
contains complex numbers, MATLAB^{®} plots the imaginary part of Y
versus the real part of Y
. If you specify both X
and Y
, the imaginary part is ignored.
plot(Y,LineSpec)
plots Y
using implicit xcoordinates, and specifies the line style, marker, and color.
Table Data
plot(tbl,xvar,yvar)
plots the variables xvar
and yvar
from the table tbl
. To plot one data set, specify one variable for xvar
and one variable for yvar
. To plot multiple data sets, specify multiple variables for xvar
, yvar
, or both. If both arguments specify multiple variables, they must specify the same number of variables. (since R2022a)
example
plot(tbl,yvar)
plots the specified variable from the table against the row indices of the table. If the table is a timetable, the specified variable is plotted against the row times of the timetable. (since R2022a)
Additional Options
example
plot(ax,___)
displays the plot in the target axes. Specify the axes as the first argument in any of the previous syntaxes.
example
plot(___,Name,Value)
specifies Line
properties using one or more namevalue arguments. The properties apply to all the plotted lines. Specify the namevalue arguments after all the arguments in any of the previous syntaxes. For a list of properties, see Line Properties.
example
p = plot(___)
returns a Line
object or an array of Line
objects. Use p
to modify properties of the plot after creating it. For a list of properties, see Line Properties.
Examples
collapse all
Create Line Plot
Open Live Script
Create x
as a vector of linearly spaced values between 0 and $$2\pi $$. Use an increment of $$\pi /100$$ between the values. Create y
as sine values of x
. Create a line plot of the data.
x = 0:pi/100:2*pi;y = sin(x);plot(x,y)
Plot Multiple Lines
Open Live Script
Define x
as 100 linearly spaced values between $$2\pi $$ and $$2\pi $$. Define y1
and y2
as sine and cosine values of x
. Create a line plot of both sets of data.
x = linspace(2*pi,2*pi);y1 = sin(x);y2 = cos(x);figureplot(x,y1,x,y2)
Create Line Plot From Matrix
Open Live Script
Define Y
as the 4by4 matrix returned by the magic
function.
Y = magic(4)
Y = 4×4 16 2 3 13 5 11 10 8 9 7 6 12 4 14 15 1
Create a 2D line plot of Y
. MATLAB® plots each matrix column as a separate line.
figureplot(Y)
Specify Line Style
Plot three sine curves with a small phase shift between each line. Use the default line style for the first line. Specify a dashed line style for the second line and a dotted line style for the third line.
x = 0:pi/100:2*pi;y1 = sin(x);y2 = sin(x0.25);y3 = sin(x0.5);figureplot(x,y1,x,y2,'',x,y3,':')
MATLAB® cycles the line color through the default color order.
Specify Line Style, Color, and Marker
Open Live Script
Plot three sine curves with a small phase shift between each line. Use a green line with no markers for the first sine curve. Use a blue dashed line with circle markers for the second sine curve. Use only cyan star markers for the third sine curve.
x = 0:pi/10:2*pi;y1 = sin(x);y2 = sin(x0.25);y3 = sin(x0.5);figureplot(x,y1,'g',x,y2,'bo',x,y3,'c*')
Display Markers at Specific Data Points
Open Live Script
Create a line plot and display markers at every fifth data point by specifying a marker symbol and setting the MarkerIndices
property as a namevalue pair.
x = linspace(0,10);y = sin(x);plot(x,y,'o','MarkerIndices',1:5:length(y))
Specify Line Width, Marker Size, and Marker Color
Open Live Script
Create a line plot and use the LineSpec
option to specify a dashed green line with square markers. Use Name,Value
pairs to specify the line width, marker size, and marker colors. Set the marker edge color to blue and set the marker face color using an RGB color value.
x = pi:pi/10:pi;y = tan(sin(x))  sin(tan(x));figureplot(x,y,'gs',... 'LineWidth',2,... 'MarkerSize',10,... 'MarkerEdgeColor','b',... 'MarkerFaceColor',[0.5,0.5,0.5])
Add Title and Axis Labels
Open Live Script
Use the linspace
function to define x
as a vector of 150 values between 0 and 10. Define y
as cosine values of x
.
x = linspace(0,10,150);y = cos(5*x);
Create a 2D line plot of the cosine curve. Change the line color to a shade of bluegreen using an RGB color value. Add a title and axis labels to the graph using the title
, xlabel
, and ylabel
functions.
figureplot(x,y,'Color',[0,0.7,0.9])title('2D Line Plot')xlabel('x')ylabel('cos(5x)')
Plot Durations and Specify Tick Format
Open Live Script
Define t
as seven linearly spaced duration
values between 0 and 3 minutes. Plot random data and specify the format of the duration
tick marks using the 'DurationTickFormat'
namevalue pair argument.
t = 0:seconds(30):minutes(3);y = rand(1,7);plot(t,y,'DurationTickFormat','mm:ss')
Plot Coordinates from a Table
Open Live Script
Since R2022a
A convenient way to plot data from a table is to pass the table to the plot
function and specify the variables to plot.
Read weather.csv
as a timetable tbl
. Then display the first three rows of the table.
tbl = readtimetable("weather.csv");tbl = sortrows(tbl);head(tbl,3)
Time WindDirection WindSpeed Humidity Temperature RainInchesPerMinute CumulativeRainfall PressureHg PowerLevel LightIntensity ____________________ _____________ _________ ________ ___________ ___________________ __________________ __________ __________ ______________ 25Oct2021 00:00:09 46 1 84 49.2 0 0 29.96 4.14 0 25Oct2021 00:01:09 45 1.6 84 49.2 0 0 29.96 4.139 0 25Oct2021 00:02:09 36 2.2 84 49.2 0 0 29.96 4.138 0
Plot the row times on the xaxis and the RainInchesPerMinute
variable on the yaxis. When you plot data from a timetable, the row times are plotted on the xaxis by default. Thus, you do not need to specify the Time
variable. Return the Line
object as p
. Notice that the axis labels match the variable names.
p = plot(tbl,"RainInchesPerMinute");
To modify aspects of the line, set the LineStyle
, Color
, and Marker
properties on the Line
object. For example, change the line to a red dotted line with point markers.
p.LineStyle = ":";p.Color = "red";p.Marker = ".";
Plot Multiple Table Variables on One Axis
Open Live Script
Since R2022a
Read weather.csv
as a timetable tbl
, and display the first few rows of the table.
tbl = readtimetable("weather.csv");head(tbl,3)
Time WindDirection WindSpeed Humidity Temperature RainInchesPerMinute CumulativeRainfall PressureHg PowerLevel LightIntensity ____________________ _____________ _________ ________ ___________ ___________________ __________________ __________ __________ ______________ 25Oct2021 00:00:09 46 1 84 49.2 0 0 29.96 4.14 0 25Oct2021 00:01:09 45 1.6 84 49.2 0 0 29.96 4.139 0 25Oct2021 00:02:09 36 2.2 84 49.2 0 0 29.96 4.138 0
Plot the row times on the xaxis and the Temperature
and PressureHg
variables on the yaxis. When you plot data from a timetable, the row times are plotted on the xaxis by default. Thus, you do not need to specify the Time
variable.
Add a legend. Notice that the legend labels match the variable names.
plot(tbl,["Temperature" "PressureHg"])legend
Specify Axes for Line Plot
Open Live Script
Starting in R2019b, you can display a tiling of plots using the tiledlayout
and nexttile
functions. Call the tiledlayout
function to create a 2by1 tiled chart layout. Call the nexttile
function to create an axes object and return the object as ax1
. Create the top plot by passing ax1
to the plot
function. Add a title and yaxis label to the plot by passing the axes to the title
and ylabel
functions. Repeat the process to create the bottom plot.
% Create data and 2by1 tiled chart layoutx = linspace(0,3);y1 = sin(5*x);y2 = sin(15*x);tiledlayout(2,1)% Top plotax1 = nexttile;plot(ax1,x,y1)title(ax1,'Top Plot')ylabel(ax1,'sin(5x)')% Bottom plotax2 = nexttile;plot(ax2,x,y2)title(ax2,'Bottom Plot')ylabel(ax2,'sin(15x)')
Modify Lines After Creation
Open Live Script
Define x
as 100 linearly spaced values between $$2\pi $$ and $$2\pi $$. Define y1
and y2
as sine and cosine values of x
. Create a line plot of both sets of data and return the two chart lines in p
.
x = linspace(2*pi,2*pi);y1 = sin(x);y2 = cos(x);p = plot(x,y1,x,y2);
Change the line width of the first line to 2. Add star markers to the second line. Use dot notation to set properties.
p(1).LineWidth = 2;p(2).Marker = '*';
Plot Circle
Open Live Script
Plot a circle centered at the point (4,3) with a radius equal to 2. Use axis equal
to use equal data units along each coordinate direction.
r = 2;xc = 4;yc = 3;theta = linspace(0,2*pi);x = r*cos(theta) + xc;y = r*sin(theta) + yc;plot(x,y)axis equal
Input Arguments
collapse all
X
— xcoordinates
scalar  vector  matrix
xcoordinates, specified as a scalar, vector, or matrix. The size and shape of X
depends on the shape of your data and the type of plot you want to create. This table describes the most common situations.
Type of Plot  How to Specify Coordinates 

Single point  Specify plot(1,2,"o") 
One set of points  Specify plot([1 2 3],[4; 5; 6]) 
Multiple sets of points (using vectors)  Specify consecutive pairs of plot([1 2 3],[4 5 6],[1 2 3],[7 8 9]) 
Multiple sets of points (using matrices)  If all the sets share the same x or ycoordinates, specify the shared coordinates as a vector and the other coordinates as a matrix. The length of the vector must match one of the dimensions of the matrix. For example: plot([1 2 3],[4 5 6; 7 8 9]) Alternatively, specify plot([1 2 3; 4 5 6],[7 8 9; 10 11 12]) 
Data Types: single
 double
 int8
 int16
 int32
 int64
 uint8
 uint16
 uint32
 uint64
 categorical
 datetime
 duration
Y
— ycoordinates
scalar  vector  matrix
ycoordinates, specified as a scalar, vector, or matrix. The size and shape of Y
depends on the shape of your data and the type of plot you want to create. This table describes the most common situations.
Type of Plot  How to Specify Coordinates 

Single point  Specify plot(1,2,"o") 
One set of points  Specify plot([1 2 3],[4; 5; 6]) Alternatively, specify just the ycoordinates. For example: plot([4 5 6]) 
Multiple sets of points (using vectors)  Specify consecutive pairs of plot([1 2 3],[4 5 6],[1 2 3],[7 8 9]) 
Multiple sets of points (using matrices)  If all the sets share the same x or ycoordinates, specify the shared coordinates as a vector and the other coordinates as a matrix. The length of the vector must match one of the dimensions of the matrix. For example: plot([1 2 3],[4 5 6; 7 8 9]) Alternatively, specify plot([1 2 3; 4 5 6],[7 8 9; 10 11 12]) 
Data Types: single
 double
 int8
 int16
 int32
 int64
 uint8
 uint16
 uint32
 uint64
 categorical
 datetime
 duration
LineSpec
— Line style, marker, and color
string scalar  character vector
Line style, marker, and color, specified as a string scalar or character vector containing symbols. The symbols can appear in any order. You do not need to specify all three characteristics (line style, marker, and color). For example, if you omit the line style and specify the marker, then the plot shows only the marker and no line.
Example: "or"
is a red dashed line with circle markers.
Line Style  Description  Resulting Line 

""  Solid line  
""  Dashed line  
":"  Dotted line  
"."  Dashdotted line 
Marker  Description  Resulting Marker 

"o"  Circle  
"+"  Plus sign  
"*"  Asterisk  
"."  Point  
"x"  Cross  
"_"  Horizontal line  
""  Vertical line  
"square"  Square  
"diamond"  Diamond  
"^"  Upwardpointing triangle  
"v"  Downwardpointing triangle  
">"  Rightpointing triangle  
"<"  Leftpointing triangle  
"pentagram"  Pentagram  
"hexagram"  Hexagram 
Color Name  Short Name  RGB Triplet  Appearance 

"red"  "r"  [1 0 0]  
"green"  "g"  [0 1 0]  
"blue"  "b"  [0 0 1]  
"cyan"  "c"  [0 1 1]  
"magenta"  "m"  [1 0 1]  
"yellow"  "y"  [1 1 0]  
"black"  "k"  [0 0 0]  
"white"  "w"  [1 1 1]  
tbl
— Source table
table  timetable
Source table containing the data to plot, specified as a table or a timetable.
xvar
— Table variables containing xcoordinates
string array  character vector  cell array  pattern  numeric scalar or vector  logical vector  vartype()
Table variables containing the xcoordinates, specified using one of the indexing schemes from the table.
Indexing Scheme  Examples 

Variable names:


Variable index:


Variable type:


The table variables you specify can contain numeric, categorical, datetime, or duration values. If xvar
and yvar
both specify multiple variables, the number of variables must be the same.
Example: plot(tbl,["x1","x2"],"y")
specifies the table variables named x1
and x2
for the xcoordinates.
Example: plot(tbl,2,"y")
specifies the second variable for the xcoordinates.
Example: plot(tbl,vartype("numeric"),"y")
specifies all numeric variables for the xcoordinates.
yvar
— Table variables containing ycoordinates
string array  character vector  cell array  pattern  numeric scalar or vector  logical vector  vartype()
Table variables containing the ycoordinates, specified using one of the indexing schemes from the table.
Indexing Scheme  Examples 

Variable names:


Variable index:


Variable type:


The table variables you specify can contain numeric, categorical, datetime, or duration values. If xvar
and yvar
both specify multiple variables, the number of variables must be the same.
Example: plot(tbl,"x",["y1","y2"])
specifies the table variables named y1
and y2
for the ycoordinates.
Example: plot(tbl,"x",2)
specifies the second variable for the ycoordinates.
Example: plot(tbl,"x",vartype("numeric"))
specifies all numeric variables for the ycoordinates.
ax
— Target axes
Axes
object  PolarAxes
object  GeographicAxes
object
Target axes, specified as an Axes
object, a PolarAxes
object, or a GeographicAxes
object. If you do not specify the axes, MATLAB plots into the current axes or it creates an Axes
object if one does not exist.
To create a polar plot or geographic plot, specify ax
as a PolarAxes
or GeographicAxes
object. Alternatively, call the polarplot or geoplot function.
NameValue Arguments
Specify optional pairs of arguments as Name1=Value1,...,NameN=ValueN
, where Name
is the argument name and Value
is the corresponding value. Namevalue arguments must appear after other arguments, but the order of the pairs does not matter.
Example: plot([0 1],[2 3],LineWidth=2)
Before R2021a, use commas to separate each name and value, and enclose Name
in quotes.
Example: plot([0 1],[2 3],"LineWidth",2)
Note
The properties listed here are only a subset. For a complete list, see Line Properties.
Color
— Line color
[0 0.4470 0.7410]
(default)  RGB triplet  hexadecimal color code  "r"
 "g"
 "b"
 ...
Line color, specified as an RGB triplet, a hexadecimal color code, a color name, or a short name.
For a custom color, specify an RGB triplet or a hexadecimal color code.
An RGB triplet is a threeelement row vector whose elements specify the intensities of the red, green, and blue components of the color. The intensities must be in the range
[0,1]
, for example,[0.4 0.6 0.7]
.A hexadecimal color code is a string scalar or character vector that starts with a hash symbol (
#
) followed by three or six hexadecimal digits, which can range from0
toF
. The values are not case sensitive. Therefore, the color codes"#FF8800"
,"#ff8800"
,"#F80"
, and"#f80"
are equivalent.
Alternatively, you can specify some common colors by name. This table lists the named color options, the equivalent RGB triplets, and hexadecimal color codes.
Color Name  Short Name  RGB Triplet  Hexadecimal Color Code  Appearance 

"red"  "r"  [1 0 0]  "#FF0000"  
"green"  "g"  [0 1 0]  "#00FF00"  
"blue"  "b"  [0 0 1]  "#0000FF"  
"cyan"  "c"  [0 1 1]  "#00FFFF"  
"magenta"  "m"  [1 0 1]  "#FF00FF"  
"yellow"  "y"  [1 1 0]  "#FFFF00"  
"black"  "k"  [0 0 0]  "#000000"  
"white"  "w"  [1 1 1]  "#FFFFFF"  
"none"  Not applicable  Not applicable  Not applicable  No color 
Here are the RGB triplets and hexadecimal color codes for the default colors MATLAB uses in many types of plots.
RGB Triplet  Hexadecimal Color Code  Appearance 

[0 0.4470 0.7410]  "#0072BD"  
[0.8500 0.3250 0.0980]  "#D95319"  
[0.9290 0.6940 0.1250]  "#EDB120"  
[0.4940 0.1840 0.5560]  "#7E2F8E"  
[0.4660 0.6740 0.1880]  "#77AC30"  
[0.3010 0.7450 0.9330]  "#4DBEEE"  
[0.6350 0.0780 0.1840]  "#A2142F" 
Example: "blue"
Example: [00 1]
Example: "#0000FF"
DatetimeTickFormat
— Format for datetime
tick labels
character vector  string
Format for datetime
tick labels, specified as the commaseparated pair consisting of "DatetimeTickFormat"
and a character vector or string containing a date format. Use the letters AZ
and az
to construct a custom format. These letters correspond to the Unicode^{®} Locale Data Markup Language (LDML) standard for dates. You can include nonASCII letter characters such as a hyphen, space, or colon to separate the fields.
If you do not specify a value for "DatetimeTickFormat"
, then plot
automatically optimizes and updates the tick labels based on the axis limits.
Example: "DatetimeTickFormat","eeee, MMMM d, yyyy HH:mm:ss"
displays a date and time such as Saturday, April 19, 2014 21:41:06
.
The following table shows several common display formats andexamples of the formatted output for the date, Saturday, April 19,2014 at 9:41:06 PM in New York City.
Value of DatetimeTickFormat  Example 

"yyyyMMdd"  20140419 
"dd/MM/yyyy"  19/04/2014 
"dd.MM.yyyy"  19.04.2014 
"yyyy年 MM月 dd日"  2014年 04月 19日 
"MMMM d, yyyy"  April 19, 2014 
"eeee, MMMM d, yyyy HH:mm:ss"  Saturday, April 19, 2014 21:41:06 
"MMMM d, yyyy HH:mm:ss Z"  April 19, 2014 21:41:06 0400 
For a complete list of valid letter identifiers, see the Format property for datetime arrays.
DatetimeTickFormat
is not a chart line property.You must set the tick format using the namevalue pair argument whencreating a plot. Alternatively, set the format using the xtickformat and ytickformat functions.
The TickLabelFormat
property of the datetimeruler stores the format.
DurationTickFormat
— Format for duration
tick labels
character vector  string
Format for duration
tick labels, specified as the commaseparated pair consisting of "DurationTickFormat"
and a character vector or string containing a duration format.
If you do not specify a value for "DurationTickFormat"
, then plot
automatically optimizes and updates the tick labels based on the axis limits.
To display a duration as a single number that includes a fractionalpart, for example, 1.234 hours, specify one of the values in thistable.
Value of DurationTickFormat  Description 

"y"  Number of exact fixedlength years. A fixedlength year isequal to 365.2425 days. 
"d"  Number of exact fixedlength days. A fixedlength day is equalto 24 hours. 
"h"  Number of hours 
"m"  Number of minutes 
"s"  Number of seconds 
Example: "DurationTickFormat","d"
displays duration values in terms of fixedlength days.
To display a duration in the form of a digital timer, specifyone of these values.
"dd:hh:mm:ss"
"hh:mm:ss"
"mm:ss"
"hh:mm"
In addition, you can display up to nine fractionalsecond digits by appending up to nine S
characters.
Example: "DurationTickFormat","hh:mm:ss.SSS"
displays the milliseconds of a duration value to three digits.
DurationTickFormat
is not a chart line property.You must set the tick format using the namevalue pair argument whencreating a plot. Alternatively, set the format using the xtickformat and ytickformat functions.
The TickLabelFormat
property of the durationruler stores the format.
Tips
Use
NaN
andInf
valuesto create breaks in the lines. For example, this code plots the firsttwo elements, skips the third element, and draws another line usingthe last two elements:plot([1,2,NaN,4,5])
plot
uses colors and line styles based on the ColorOrder and LineStyleOrder properties of the axes.plot
cycles through the colors with the first line style. Then, it cycles through the colors again with each additional line style.You can change the colors and the line styles after plotting by setting the
ColorOrder
orLineStyleOrder
properties on the axes. You can also call the colororder function to change the color order for all the axes in the figure. (since R2019b)
Extended Capabilities
Tall Arrays
Calculate with arrays that have more rows than fit in memory.
Usage notes and limitations:
Supported syntaxes for tall arrays
X
andY
are:plot(X,Y)
plot(Y)
plot(___,LineSpec)
plot(___,Name,Value)
plot(ax,___)
X
must be in monotonically increasing order.Categorical inputs are not supported.
Tall inputs must be real column vectors.
With tall arrays, the
plot
function plots in iterations, progressively adding to the plot as more data is read. During the updates, a progress indicator shows the proportion of data that has been plotted. Zooming and panning is supported during the updating process, before the plot is complete. To stop the update process, press the pause button in the progress indicator.
For more information, see Visualization of Tall Arrays.
GPU Arrays
Accelerate code by running on a graphics processing unit (GPU) using Parallel Computing Toolbox™.
Usage notes and limitations:
This function accepts GPU arrays, but does not run on a GPU.
For more information, see Run MATLAB Functions on a GPU (Parallel Computing Toolbox).
Distributed Arrays
Partition large arrays across the combined memory of your cluster using Parallel Computing Toolbox™.
Usage notes and limitations:
This function operates on distributed arrays, but executes in the client MATLAB.
For more information, see Run MATLAB Functions with Distributed Arrays (Parallel Computing Toolbox).
Version History
Introduced before R2006a
expand all
R2022b: Plots created with tables preserve special characters in axis and legend labels
When you pass a table and one or more variable names to the plot
function, the axis and legend labels now display any special characters that are included in the table variable names, such as underscores. Previously, special characters were interpreted as TeX or LaTeX characters.
For example, if you pass a table containing a variable named Sample_Number
to the plot
function, the underscore appears in the axis and legend labels. In R2022a and earlier releases, the underscores are interpreted as subscripts.
Release  Label for Table Variable "Sample_Number" 

R2022b  
R2022a 
To display axis and legend labels with TeX or LaTeX formatting, specify the labels manually. For example, after plotting, call the xlabel
or legend
function with the desired label strings.
xlabel("Sample_Number")legend(["Sample_Number" "Another_Legend_Label"])
R2022a: Pass tables directly to plot
Create plots by passing a table to the plot
function followed by the variables you want to plot. When you specify your data as a table, the axis labels and the legend (if present) are automatically labeled using the table variable names.
See Also
Functions
 title  xlabel  ylabel  xlim  ylim  legend  hold  gca  yyaxis  plot3  loglog
Properties
 Line Properties
Topics
 Plot Dates and Times
 Plot Categorical Data
 Plots That Support Tables
External Websites
 MATLAB PlotGallery
MATLAB Command
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