pivot
Syntax
Description
A pivoted table provides a summary of tabular data—the column and row labels of a pivoted table are group names, and the data values are group counts or the result of another computation method. Pivoted tables are useful for analyzing and providing insights into large data sets and organizing data from another perspective, according to column and row groups. For more information, see Pivoting Operation or watch How to Create Pivot Tables in MATLAB (4 min, 11 sec).
P = pivot(
returns a pivoted table that summarizes data in the table or timetable T
,Columns=colvars
,Rows=rowvars
)T
.
The groups in the grouping variables specified by colvars
designate the
variables in the pivoted table. The group names in the grouping variables specified by
rowvars
designate the values of the row labels of the pivoted table.
The default data in P
is the group counts of each combination of groups
from colvars
and rowvars
. Empty categories are omitted
from the pivoted table, where an empty category is a possible value of a categorical,
logical, or binned numeric, duration, or datetime grouping variable that is not represented
in the input table.
You can use pivot
functionality interactively by adding the
Pivot
Table task to a live script.
P = pivot(___,
specifies additional pivoting parameters using one or more name-value arguments with any of
the input argument combinations in the previous syntaxes. For example,
Name=Value
)pivot(T,Columns=colvars,DataVariable="Sales")
returns a pivoted table
where the data values are the sums of the numeric data variable
Sales
.
Examples
Summarize Table Using Cross-Tabulation
Compute the group counts for table data with two grouping variables.
Create a table that contains information about 12 hospital patients.
healthStatusOrder = ["Poor" "Fair" "Good" "Excellent"]; HealthStatus = categorical(["Excellent"; "Fair"; "Good"; "Fair"; "Good"; "Good"; ... "Good"; "Good"; "Excellent"; "Excellent"; "Excellent"; "Poor"],healthStatusOrder); Smoker = logical([1; 0; 0; 0; 0; 0; 1; 0; 0; 0; 0; 0]); Location = ["County"; "VA"; "St. Mary's"; "VA"; "County"; "St. Mary's"; ... "VA"; "VA"; "St. Mary's"; "County"; "County"; "St. Mary's"]; T = table(HealthStatus,Smoker,Location)
T=12×3 table
HealthStatus Smoker Location
____________ ______ ____________
Excellent true "County"
Fair false "VA"
Good false "St. Mary's"
Fair false "VA"
Good false "County"
Good false "St. Mary's"
Good true "VA"
Good false "VA"
Excellent false "St. Mary's"
Excellent false "County"
Excellent false "County"
Poor false "St. Mary's"
Find the number of patients reporting each unique combination of smoker status and health status. The variables in the pivoted table represent the unique values of the Smoker
grouping variable. The rows in the pivoted table represent the unique values of the HealthStatus
grouping variable.
For example, the true
variable in the pivoted table shows that one smoking patient reported Good
health status and one smoking patient reported Excellent
health status.
P = pivot(T,Columns="Smoker",Rows="HealthStatus")
P=4×3 table
HealthStatus false true
____________ _____ ____
Poor 1 0
Fair 2 0
Good 4 1
Excellent 3 1
Specify Computation Method
Compute a summary statistic for filtered and grouped table data.
Create a table from a file that contains information about 100 hospital patients.
T = readtable("patients.xls",TextType="string"); healthStatusOrder = ["Poor" "Fair" "Good" "Excellent"]; T.SelfAssessedHealthStatus = categorical(T.SelfAssessedHealthStatus,healthStatusOrder);
Create a table containing data for patients at the County General Hospital.
T_cgh = T(T.Location=="County General Hospital",:)
T_cgh=39×10 table
LastName Gender Age Location Height Weight Smoker Systolic Diastolic SelfAssessedHealthStatus
___________ ________ ___ _________________________ ______ ______ ______ ________ _________ ________________________
"Smith" "Male" 38 "County General Hospital" 71 176 true 124 93 Excellent
"Brown" "Female" 49 "County General Hospital" 64 119 false 122 80 Good
"Taylor" "Female" 31 "County General Hospital" 66 132 false 118 86 Excellent
"Anderson" "Female" 45 "County General Hospital" 68 128 false 114 77 Excellent
"Martinez" "Male" 37 "County General Hospital" 70 179 false 119 77 Good
"Robinson" "Male" 50 "County General Hospital" 68 172 false 125 76 Good
"Lee" "Female" 44 "County General Hospital" 66 146 true 128 90 Fair
"Walker" "Female" 28 "County General Hospital" 65 123 true 129 96 Good
"Young" "Female" 25 "County General Hospital" 63 114 false 125 76 Good
"Hernandez" "Male" 36 "County General Hospital" 68 166 false 120 83 Poor
"King" "Male" 30 "County General Hospital" 67 186 true 127 89 Excellent
"Green" "Male" 44 "County General Hospital" 71 193 false 121 92 Good
"Mitchell" "Male" 39 "County General Hospital" 71 164 true 128 92 Fair
"Campbell" "Female" 37 "County General Hospital" 65 135 false 116 77 Fair
"Evans" "Female" 39 "County General Hospital" 62 121 false 123 76 Good
"Edwards" "Male" 42 "County General Hospital" 70 158 false 116 83 Excellent
⋮
Find the median age of nonsmoking and smoking patients per health status at the County General Hospital.
P = pivot(T_cgh,Columns="Smoker",Rows="SelfAssessedHealthStatus",Method="median",DataVariable="Age")
P=4×3 table
SelfAssessedHealthStatus false true
________________________ _____ ____
Poor 36 43
Fair 42.5 41.5
Good 39 39
Excellent 42 38
Specify Group Bins
Compute the group counts for table data with two discretized grouping variables.
Create a timetable from a file that contains information about 1468 power outages.
TT = readtimetable("outages.csv",TextType="string")
TT=1468×5 timetable
OutageTime Region Loss Customers RestorationTime Cause
________________ ___________ ______ __________ ________________ _________________
2002-02-01 12:18 "SouthWest" 458.98 1.8202e+06 2002-02-07 16:50 "winter storm"
2003-01-23 00:49 "SouthEast" 530.14 2.1204e+05 NaT "winter storm"
2003-02-07 21:15 "SouthEast" 289.4 1.4294e+05 2003-02-17 08:14 "winter storm"
2004-04-06 05:44 "West" 434.81 3.4037e+05 2004-04-06 06:10 "equipment fault"
2002-03-16 06:18 "MidWest" 186.44 2.1275e+05 2002-03-18 23:23 "severe storm"
2003-06-18 02:49 "West" 0 0 2003-06-18 10:54 "attack"
2004-06-20 14:39 "West" 231.29 NaN 2004-06-20 19:16 "equipment fault"
2002-06-06 19:28 "West" 311.86 NaN 2002-06-07 00:51 "equipment fault"
2003-07-16 16:23 "NorthEast" 239.93 49434 2003-07-17 01:12 "fire"
2004-09-27 11:09 "MidWest" 286.72 66104 2004-09-27 16:37 "equipment fault"
2004-09-05 17:48 "SouthEast" 73.387 36073 2004-09-05 20:46 "equipment fault"
2004-05-21 21:45 "West" 159.99 NaN 2004-05-22 04:23 "equipment fault"
2002-09-01 18:22 "SouthEast" 95.917 36759 2002-09-01 19:12 "severe storm"
2003-09-27 07:32 "SouthEast" NaN 3.5517e+05 2003-10-04 07:02 "severe storm"
2003-11-12 06:12 "West" 254.09 9.2429e+05 2003-11-17 02:04 "winter storm"
2004-09-18 05:54 "NorthEast" 0 0 NaT "equipment fault"
⋮
Compute the total number of customers impacted by power outages for each region per year. The default computation method for the numeric variable Customers
is "sum"
.
P = pivot(TT,Columns="Region",Rows="OutageTime",RowsBinMethod="year",DataVariable="Customers")
P=13×6 table
year_OutageTime MidWest NorthEast SouthEast SouthWest West
_______________ __________ __________ __________ __________ __________
2002 5.0288e+06 3.3639e+06 1.2407e+06 2.7917e+06 6.2711e+05
2003 1.6592e+06 2.2939e+06 6.14e+06 1.3498e+06 2.5174e+06
2004 1.6618e+06 8.8251e+05 9.7505e+06 7.288e+05 2.4995e+06
2005 4.0282e+05 2.1882e+06 4.4938e+06 63303 1.5852e+06
2006 5.893e+06 4.5673e+06 6.1276e+06 2.8699e+05 8.8541e+06
2007 1.2878e+06 5.713e+06 2.6545e+06 64318 2.774e+06
2008 5.8309e+06 7.6436e+06 2.4609e+06 5.18e+05 1.1541e+06
2009 1.7014e+06 5.4466e+06 3.0844e+06 1.3161e+05 1.421e+06
2010 1.276e+06 1.5478e+07 6.3296e+06 0 4.5303e+06
2011 2.6649e+06 6.4766e+06 2.5454e+06 0 1.9269e+06
2012 1.3579e+06 1.1328e+07 4.8136e+06 0 1.4055e+06
2013 5.3376e+05 5.7699e+06 3.8738e+06 0 1.1063e+06
2014 0 0 0 0 0
More Than Two Grouping Variables
Compute the group counts for table data with more than two grouping variables.
Create a table from a file that contains information about 100 hospital patients.
T = readtable("patients.xls",TextType="string"); healthStatusOrder = ["Poor" "Fair" "Good" "Excellent"]; T.SelfAssessedHealthStatus = categorical(T.SelfAssessedHealthStatus,healthStatusOrder); T
T=100×10 table
LastName Gender Age Location Height Weight Smoker Systolic Diastolic SelfAssessedHealthStatus
__________ ________ ___ ___________________________ ______ ______ ______ ________ _________ ________________________
"Smith" "Male" 38 "County General Hospital" 71 176 true 124 93 Excellent
"Johnson" "Male" 43 "VA Hospital" 69 163 false 109 77 Fair
"Williams" "Female" 38 "St. Mary's Medical Center" 64 131 false 125 83 Good
"Jones" "Female" 40 "VA Hospital" 67 133 false 117 75 Fair
"Brown" "Female" 49 "County General Hospital" 64 119 false 122 80 Good
"Davis" "Female" 46 "St. Mary's Medical Center" 68 142 false 121 70 Good
"Miller" "Female" 33 "VA Hospital" 64 142 true 130 88 Good
"Wilson" "Male" 40 "VA Hospital" 68 180 false 115 82 Good
"Moore" "Male" 28 "St. Mary's Medical Center" 68 183 false 115 78 Excellent
"Taylor" "Female" 31 "County General Hospital" 66 132 false 118 86 Excellent
"Anderson" "Female" 45 "County General Hospital" 68 128 false 114 77 Excellent
"Thomas" "Female" 42 "St. Mary's Medical Center" 66 137 false 115 68 Poor
"Jackson" "Male" 25 "VA Hospital" 71 174 false 127 74 Poor
"White" "Male" 39 "VA Hospital" 72 202 true 130 95 Excellent
"Harris" "Female" 36 "St. Mary's Medical Center" 65 129 false 114 79 Good
"Martin" "Male" 48 "VA Hospital" 71 181 true 130 92 Good
⋮
Find the number of nonsmoking and smoking patients declaring each health status per location. The pivoted table is 3-by-5 and contains nested variables that retain the hierarchy of the SelfAssessedHealthStatus
and Smoker
variables.
P = pivot(T,Columns=["SelfAssessedHealthStatus" "Smoker"],Rows="Location")
P=3×5 table
Location Poor Fair Good Excellent
___________________________ _____________ _____________ _____________ _____________
false true false true false true false true
_____ ____ _____ ____ _____ ____ _____ ____
"County General Hospital" 1 3 4 2 9 7 9 4
"St. Mary's Medical Center" 3 0 2 0 10 3 4 2
"VA Hospital" 4 0 4 3 5 6 11 4
Access a data value by indexing into the pivoted table. For example, return the number of smoking patients reporting Fair
health from the County General Hospital.
num = P.Fair.true(P.Location == "County General Hospital")
num = 2
Alternatively, return a table containing only one level. Flatten the hierarchy of the SelfAssessedHealthStatus
and Smoker
grouping variables and concatenate their group names with an underscore.
Pflat = pivot(T,Columns=["SelfAssessedHealthStatus" "Smoker"],Rows="Location",OutputFormat="flat")
Pflat=3×9 table
Location Poor_false Poor_true Fair_false Fair_true Good_false Good_true Excellent_false Excellent_true
___________________________ __________ _________ __________ _________ __________ _________ _______________ ______________
"County General Hospital" 1 3 4 2 9 7 9 4
"St. Mary's Medical Center" 3 0 2 0 10 3 4 2
"VA Hospital" 4 0 4 3 5 6 11 4
Include Totals
Compute the overall counts for each variable and row in a pivoted table.
Create a table T
that contains information about 12 hospital patients.
healthStatusOrder = ["Poor" "Fair" "Good" "Excellent"]; HealthStatus = categorical(["Excellent"; "Fair"; "Good"; "Fair"; "Good"; "Good"; ... "Good"; "Good"; "Excellent"; "Excellent"; "Excellent"; "Poor"],healthStatusOrder); Smoker = logical([1; 0; 0; 0; 0; 0; 1; 0; 0; 0; 0; 0]); Location = ["County"; "VA"; "St. Mary's"; "VA"; "County"; "St. Mary's"; ... "VA"; "VA"; "St. Mary's"; "County"; "County"; "St. Mary's"]; T = table(HealthStatus,Smoker,Location)
T=12×3 table
HealthStatus Smoker Location
____________ ______ ____________
Excellent true "County"
Fair false "VA"
Good false "St. Mary's"
Fair false "VA"
Good false "County"
Good false "St. Mary's"
Good true "VA"
Good false "VA"
Excellent false "St. Mary's"
Excellent false "County"
Excellent false "County"
Poor false "St. Mary's"
Find the number of patients reporting each unique combination of smoker status and health status. To display the total number of patients reporting each smoker status and health status, include the variable and row totals in the pivoted table. Move the row labels in the HealthStatus
variable into the RowNames
property and display the pivoted table.
P = pivot(T,Columns="Smoker",Rows="HealthStatus",IncludeTotals=true,RowLabelPlacement="rownames")
P=5×3 table
false true Overall_count
_____ ____ _____________
Poor 1 0 1
Fair 2 0 2
Good 4 1 5
Excellent 3 1 4
Overall_count 10 2 12
Return a subset of the pivoted table containing the specified row names.
Psubset = P(["Good" "Excellent"],:)
Psubset=2×3 table
false true Overall_count
_____ ____ _____________
Good 4 1 5
Excellent 3 1 4
Include Empty Groups
Compute the group counts for filtered and grouped timetable data. Include unrepresented groups in the pivoting operation.
Create a timetable from a file that contains information about 1468 power outages.
TT = readtimetable("outages.csv")
TT=1468×5 timetable
OutageTime Region Loss Customers RestorationTime Cause
________________ _____________ ______ __________ ________________ ___________________
2002-02-01 12:18 {'SouthWest'} 458.98 1.8202e+06 2002-02-07 16:50 {'winter storm' }
2003-01-23 00:49 {'SouthEast'} 530.14 2.1204e+05 NaT {'winter storm' }
2003-02-07 21:15 {'SouthEast'} 289.4 1.4294e+05 2003-02-17 08:14 {'winter storm' }
2004-04-06 05:44 {'West' } 434.81 3.4037e+05 2004-04-06 06:10 {'equipment fault'}
2002-03-16 06:18 {'MidWest' } 186.44 2.1275e+05 2002-03-18 23:23 {'severe storm' }
2003-06-18 02:49 {'West' } 0 0 2003-06-18 10:54 {'attack' }
2004-06-20 14:39 {'West' } 231.29 NaN 2004-06-20 19:16 {'equipment fault'}
2002-06-06 19:28 {'West' } 311.86 NaN 2002-06-07 00:51 {'equipment fault'}
2003-07-16 16:23 {'NorthEast'} 239.93 49434 2003-07-17 01:12 {'fire' }
2004-09-27 11:09 {'MidWest' } 286.72 66104 2004-09-27 16:37 {'equipment fault'}
2004-09-05 17:48 {'SouthEast'} 73.387 36073 2004-09-05 20:46 {'equipment fault'}
2004-05-21 21:45 {'West' } 159.99 NaN 2004-05-22 04:23 {'equipment fault'}
2002-09-01 18:22 {'SouthEast'} 95.917 36759 2002-09-01 19:12 {'severe storm' }
2003-09-27 07:32 {'SouthEast'} NaN 3.5517e+05 2003-10-04 07:02 {'severe storm' }
2003-11-12 06:12 {'West' } 254.09 9.2429e+05 2003-11-17 02:04 {'winter storm' }
2004-09-18 05:54 {'NorthEast'} 0 0 NaT {'equipment fault'}
⋮
Filter the timetable for outages where the cause was a winter storm.
TT.Cause = categorical(TT.Cause);
TTwinter = TT(TT.Cause=="winter storm",:);
Add a variable to the timetable that contains the duration of each power outage in days.
TTwinter.OutageDuration = TTwinter.RestorationTime-TTwinter.OutageTime;
TTwinter.OutageDuration.Format = "d"
TTwinter=145×6 timetable
OutageTime Region Loss Customers RestorationTime Cause OutageDuration
________________ _____________ ______ __________ ________________ ____________ ______________
2002-02-01 12:18 {'SouthWest'} 458.98 1.8202e+06 2002-02-07 16:50 winter storm 6.1889 days
2003-01-23 00:49 {'SouthEast'} 530.14 2.1204e+05 NaT winter storm NaN days
2003-02-07 21:15 {'SouthEast'} 289.4 1.4294e+05 2003-02-17 08:14 winter storm 9.4576 days
2003-11-12 06:12 {'West' } 254.09 9.2429e+05 2003-11-17 02:04 winter storm 4.8278 days
2004-11-13 10:42 {'NorthEast'} NaN 1.4227e+05 2004-11-19 02:31 winter storm 5.659 days
2004-12-06 23:18 {'SouthEast'} NaN 37136 2004-12-14 03:21 winter storm 7.1688 days
2002-12-12 18:08 {'SouthEast'} 46.918 1.0698e+05 2002-12-14 18:43 winter storm 2.0243 days
2004-12-21 18:50 {'West' } 112.05 7.985e+05 2004-12-29 03:46 winter storm 7.3722 days
2002-12-16 13:43 {'West' } 70.752 4.8193e+05 2002-12-19 09:38 winter storm 2.8299 days
2004-12-26 22:18 {'NorthEast'} 255.45 1.0444e+05 2004-12-27 14:11 winter storm 0.66181 days
2003-12-17 15:11 {'NorthEast'} NaN 66692 2003-12-19 07:22 winter storm 1.6743 days
2005-03-08 16:37 {'SouthEast'} 1339.2 4.3003e+05 2005-03-10 20:42 winter storm 2.1701 days
2002-03-26 01:59 {'MidWest' } 388.04 5.6422e+05 2002-03-28 19:55 winter storm 2.7472 days
2003-12-22 03:40 {'West' } 232.26 3.9462e+05 2003-12-24 16:32 winter storm 2.5361 days
2003-01-10 15:38 {'West' } 185.85 2.757e+05 2003-01-12 05:48 winter storm 1.5903 days
2002-12-30 07:53 {'West' } 119.78 1.0355e+05 2003-01-02 11:17 winter storm 3.1417 days
⋮
Compute the number of winter storm outages that occurred during each month of the year per the duration of the outage in days.
Pwinter = pivot(TTwinter,Rows="RestorationTime",Columns="OutageDuration",RowsBinMethod="monthname",ColumnsBinMethod="day",RowLabelPlacement="rownames")
Pwinter=9×16 table
[0 days, 1 day) [1 day, 2 days) [2 days, 3 days) [3 days, 4 days) [4 days, 5 days) [5 days, 6 days) [6 days, 7 days) [7 days, 8 days) [8 days, 9 days) [9 days, 10 days) [10 days, 11 days) [11 days, 12 days) [12 days, 13 days) [14 days, 15 days) [18 days, 19 days] <missing_day_OutageDuration>
_______________ _______________ ________________ ________________ ________________ ________________ ________________ ________________ ________________ _________________ __________________ __________________ __________________ __________________ __________________ ____________________________
January 5 10 5 2 4 1 1 0 1 1 2 0 2 0 0 0
February 13 12 8 5 2 3 3 2 2 1 0 1 0 1 1 0
March 3 1 6 2 0 0 0 0 0 0 0 0 0 0 0 0
April 1 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0
May 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0
October 1 1 1 0 0 1 0 0 0 0 1 0 0 0 0 0
November 3 2 0 2 2 1 0 0 0 0 0 0 0 0 0 0
December 4 1 7 3 0 1 2 2 1 0 2 0 0 1 0 0
<missing_monthname_RestorationTime> 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2
Include groups in the pivoting operation for categories in RestorationTime
and OutageDuration
that are unrepresented in the input table. Including empty groups creates rows for June, July, August, and September in the pivoted table, where the value of every table cell in those rows is 0. Including empty groups also creates variables for outage durations that are not present in the data set, where the value of every table cell in those variables is 0. Do not include groups in the pivoted table for outages with an unknown restoration time.
Pwinter2 = pivot(TTwinter,Rows="RestorationTime",Columns="OutageDuration",RowsBinMethod="monthname",ColumnsBinMethod="day",IncludeEmptyGroups=1,IncludeMissingGroups=0,RowLabelPlacement="rownames")
Pwinter2=12×19 table
[0 days, 1 day) [1 day, 2 days) [2 days, 3 days) [3 days, 4 days) [4 days, 5 days) [5 days, 6 days) [6 days, 7 days) [7 days, 8 days) [8 days, 9 days) [9 days, 10 days) [10 days, 11 days) [11 days, 12 days) [12 days, 13 days) [13 days, 14 days) [14 days, 15 days) [15 days, 16 days) [16 days, 17 days) [17 days, 18 days) [18 days, 19 days]
_______________ _______________ ________________ ________________ ________________ ________________ ________________ ________________ ________________ _________________ __________________ __________________ __________________ __________________ __________________ __________________ __________________ __________________ __________________
January 5 10 5 2 4 1 1 0 1 1 2 0 2 0 0 0 0 0 0
February 13 12 8 5 2 3 3 2 2 1 0 1 0 0 1 0 0 0 1
March 3 1 6 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
April 1 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0
May 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
June 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
July 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
August 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
September 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
October 1 1 1 0 0 1 0 0 0 0 1 0 0 0 0 0 0 0 0
November 3 2 0 2 2 1 0 0 0 0 0 0 0 0 0 0 0 0 0
December 4 1 7 3 0 1 2 2 1 0 2 0 0 0 1 0 0 0 0
Input Arguments
T
— Input table
table | timetable
Input table, specified as a table or timetable.
colvars
— Grouping variables to designate pivoted table variables
scalar | vector | cell array | pattern | function handle | table vartype
subscript
Grouping variables to designate pivoted table variables, specified as one of the
indexing schemes in this table. This argument specifies the variables for
Columns
. Each variable in the pivoted table corresponds to one
variable group. Variable groups are defined by rows that have the same unique
combination of values in grouping variables in Columns
.
If you do not specify colvars
, then the pivoted table contains
only one variable.
Indexing Scheme | Values to Specify | Examples |
---|---|---|
Variable names |
|
|
Variable index |
|
|
Function handle |
|
|
Variable type |
|
|
Example: P = pivot(T,Columns="Var1",Rows="Var2")
Example: P = pivot(T,Columns=["Var1"
"Var2"],Rows="Var3")
rowvars
— Grouping variables to designate pivoted table rows
scalar | vector | cell array | pattern | function handle | table vartype
subscript
Grouping variables to designate pivoted table rows, specified as one of the indexing
schemes in this table. This argument specifies the variables for
Rows
. Each row in the pivoted table corresponds to one row group. Row
groups are defined by rows that have the same unique combination of values in grouping
variables in Rows
.
If you do not specify rowvars
, then the pivoted table contains
only one row.
Indexing Scheme | Values to Specify | Examples |
---|---|---|
Variable names |
|
|
Variable index |
|
|
Function handle |
|
|
Variable type |
|
|
Example: P = pivot(T,Columns="Var1",Rows="Var2")
Example: P = pivot(T,Columns="Var1",Rows=["Var2"
"Var3"])
Name-Value Arguments
Specify optional pairs of arguments as
Name1=Value1,...,NameN=ValueN
, where Name
is
the argument name and Value
is the corresponding value.
Name-value arguments must appear after other arguments, but the order of the
pairs does not matter.
Example: P = pivot(T,Columns=["Var1"
"Var2"],Rows="Var3","DataVariable="Var4",Method="mean")
DataVariable
— Table variable to fill values of the pivoted table
scalar | vector | function handle | table vartype
subscript
Table variable to fill values of the pivoted table instead of group counts,
specified as one of the indexing schemes in this table. The results of applying the
computation method Method
to the variable specified by
DataVariable
are the data values of the pivoted table.
If you do not specify DataVariable
, then the data values of the
pivoted table are the group counts.
Indexing Scheme | Examples |
---|---|
Variable name:
|
|
Variable index:
|
|
Function handle:
|
|
Variable type:
|
|
To apply a computation method to multiple data variables, use the groupsummary
function.
Example: P =
pivot(T,Columns="Var1",Rows="Var2",DataVariable="Var3")
Method
— Computation method to apply to the data variable
"count"
| "sum"
| "mean"
| "median"
| "std"
| function handle | ...
Computation method to apply to the data variable, specified as one of the values
in this table. The results of applying the computation method to the variable
specified by DataVariable
are the data values of the pivoted
table.
The default value of Method
depends on the value of
DataVariable
.
If the variable specified by
DataVariable
is numeric, then the default computation method is"sum"
.If the variable specified by
DataVariable
is not numeric, then the default computation method is"count"
.If
DataVariable
is not specified, then the computation method must be"count"
or"percentage"
, where"count"
is the default.
Method | Description |
---|---|
"count" | Group count |
"sum" | Sum |
"percentage" | Group percentage |
"mean" | Mean |
"median" | Median |
"mode" | Mode |
"var" | Variance |
"std" | Standard deviation |
"min" | Minimum |
"max" | Maximum |
"range" | Maximum minus minimum |
"nummissing" | Number of missing elements |
"numunique" | Number of distinct nonmissing elements |
"nnz" | Number of nonzero and non- |
You also can specify the computation method as a function handle that accepts
groups of data in DataVariable
and returns one output per group
whose first dimension has length 1.
The pivot
function omits missing values in the input data
when using the method names described here, with the exception of
"nummissing"
. To include missing values, use a function handle
for the method, such as @sum
instead of
"sum"
.
To specify multiple computation methods for a data variable, use the groupsummary
function.
Example: P =
pivot(T,Columns="Var1",Rows="Var2",DataVariable="Var3",Method="mean")
ColumnsBinMethod
— Binning scheme for grouping variables specified by Columns
"none"
(default) | vector of bin edges | number of bins | length of time (bin width) | name of time unit (bin width) | cell array of binning methods
Binning scheme for grouping variables specified by Columns
,
specified as one or more of the following binning methods. Grouping variables and
binning scheme arguments must be the same size, or one of them can be scalar.
"none"
— No binning.Vector of bin edges — The bin edges define the bins. You can specify the edges as numeric values or as
datetime
values fordatetime
grouping variables.Number of bins — The number determines how many equally spaced bins to create. You can specify the number of bins as a positive integer scalar.
Length of time (bin width) — The length of time determines the width of each bin. You can specify the bin width as a
duration
orcalendarDuration
scalar fordatetime
orduration
grouping variables.Name of time unit (bin width) — The name of the time unit determines the width of each bin. You can specify the bin width as one of the options in this table for
datetime
orduration
grouping variables.Value Description Data Type "second"
Each bin is 1 second.
datetime
andduration
"minute"
Each bin is 1 minute.
datetime
andduration
"hour"
Each bin is 1 hour.
datetime
andduration
"day"
Each bin is 1 calendar day. This value accounts for daylight saving time shifts.
datetime
andduration
"week"
Each bin is 1 calendar week. datetime
only"month"
Each bin is 1 calendar month. datetime
only"quarter"
Each bin is 1 calendar quarter. datetime
only"year"
Each bin is 1 calendar year. This value accounts for leap days.
datetime
andduration
"decade"
Each bin is 1 decade (10 calendar years). datetime
only"century"
Each bin is 1 century (100 calendar years). datetime
only"secondofminute"
Bins are seconds from 0 to 59.
datetime
only"minuteofhour"
Bins are minutes from 0 to 59.
datetime
only"hourofday"
Bins are hours from 0 to 23.
datetime
only"dayofweek"
Bins are days from 1 to 7. The first day of the week is Sunday.
datetime
only"dayname"
Bins are full day names, such as "Sunday"
.datetime
only"dayofmonth"
Bins are days from 1 to 31. datetime
only"dayofyear"
Bins are days from 1 to 366. datetime
only"weekofmonth"
Bins are weeks from 1 to 6. datetime
only"weekofyear"
Bins are weeks from 1 to 54. datetime
only"monthname"
Bins are full month names, such as "January"
.datetime
only"monthofyear"
Bins are months from 1 to 12.
datetime
only"quarterofyear"
Bins are quarters from 1 to 4. datetime
only
Example: P = pivot(T,Columns="Var1",Rows="Var2",ColumnsBinMethod=[-Inf 0
Inf])
Example: P = pivot(T,Columns=["Var1"
"Var2"],ColumnsBinMethod={"none","year"})
Example: P =
pivot(T,Columns="Var1",ColumnsBinMethod={"month","quarter"})
RowsBinMethod
— Binning scheme for grouping variables specified by Rows
"none"
(default) | vector of bin edges | number of bins | length of time (bin width) | name of time unit (bin width) | cell array of binning methods
Binning scheme for grouping variables specified by Rows
,
specified as one or more of the following binning methods. Grouping variables and
binning scheme arguments must be the same size, or one of them can be scalar.
"none"
— No binning.Vector of bin edges — The bin edges define the bins. You can specify the edges as numeric values or as
datetime
values fordatetime
grouping variables.Number of bins — The number determines how many equally spaced bins to create. You can specify the number of bins as a positive integer scalar.
Length of time (bin width) — The length of time determines the width of each bin. You can specify the bin width as a
duration
orcalendarDuration
scalar fordatetime
orduration
grouping variables.Name of time unit (bin width) — The name of the time unit determines the width of each bin. You can specify the bin width as one of the options in this table for
datetime
orduration
grouping variables.Value Description Data Type "second"
Each bin is 1 second.
datetime
andduration
"minute"
Each bin is 1 minute.
datetime
andduration
"hour"
Each bin is 1 hour.
datetime
andduration
"day"
Each bin is 1 calendar day. This value accounts for daylight saving time shifts.
datetime
andduration
"week"
Each bin is 1 calendar week. datetime
only"month"
Each bin is 1 calendar month. datetime
only"quarter"
Each bin is 1 calendar quarter. datetime
only"year"
Each bin is 1 calendar year. This value accounts for leap days.
datetime
andduration
"decade"
Each bin is 1 decade (10 calendar years). datetime
only"century"
Each bin is 1 century (100 calendar years). datetime
only"secondofminute"
Bins are seconds from 0 to 59.
datetime
only"minuteofhour"
Bins are minutes from 0 to 59.
datetime
only"hourofday"
Bins are hours from 0 to 23.
datetime
only"dayofweek"
Bins are days from 1 to 7. The first day of the week is Sunday.
datetime
only"dayname"
Bins are full day names, such as "Sunday"
.datetime
only"dayofmonth"
Bins are days from 1 to 31. datetime
only"dayofyear"
Bins are days from 1 to 366. datetime
only"weekofmonth"
Bins are weeks from 1 to 6. datetime
only"weekofyear"
Bins are weeks from 1 to 54. datetime
only"monthname"
Bins are full month names, such as "January"
.datetime
only"monthofyear"
Bins are months from 1 to 12.
datetime
only"quarterofyear"
Bins are quarters from 1 to 4. datetime
only
Example: P = pivot(T,Columns="Var1",Rows="Var2",RowsBinMethod=[-Inf 0
Inf])
Example: P = pivot(T,Rows=["Var1"
"Var2"],RowsBinMethod={"none","year"})
Example: P =
pivot(T,Rows="Var1",RowsBinMethod={"month","quarter"})
IncludedEdge
— Included bin edge for binning scheme
"left"
(default) | "right"
Included bin edge for binning scheme, specified as either
"left"
or "right"
, indicating which end of the
bin interval is inclusive when binning the grouping variables.
You can specify IncludedEdge
only if you also specify
ColumnsBinMethod
or RowsBinMethod
. The value
applies to all binning methods for all grouping variables.
Example: P = pivot(T,Columns="Var1",ColumnsBinMethod=[0 5 10
15],IncludedEdge="right",Rows="Var2")
OutputFormat
— Column hierarchy output format
"nested"
(default) | "flat"
Column hierarchy output format, specified as one of these values when more than
one grouping variable is specified by Columns
:
"nested"
— Variables in the pivoted table contain nested tables. The pivoted table retains the hierarchy of groups in the grouping variables specified byColumns
."flat"
— Variables in the pivoted table contain one level. The pivoted table flattens the hierarchy of groups in the variables specified byColumns
, and the variable names are the group names concatenated with an underscore.
Example: P = pivot(T,Columns=["Var1"
"Var2"],Rows="Var3",OutputFormat="flat")
IncludeTotals
— Option to include column and row totals
false
or 0
(default) | true
or 1
Option to include column and row totals, specified as a numeric or logical
0
(false
) or 1
(true
). If IncludeTotals
is
true
, then the pivoted table includes an additional row
containing the totals for each column and an additional variable containing the totals
for each row. The pivot
function computes the marginal totals by
applying Method
to all data values in
DataVariable
that correspond to that column or row.
If you do not specify Columns
, then the pivoted table contains
only one variable and omits the additional variable of row totals. If you do not
specify Rows
, then the pivoted table contains only one row and
omits the additional row of column totals.
Example: P =
pivot(T,Columns="Var1",IncludeTotals=true)
Example: P =
pivot(T,Rows="Var2",IncludeTotals=true)
Example: P =
pivot(T,Columns="Var1",Rows="Var2",IncludeTotals=true)
IncludeMissingGroups
— Option to treat missing values as a group
true
or 1
(default) | false
or 0
Option to treat missing values as a group, specified as a numeric or logical
1
(true
) or 0
(false
). If IncludeMissingGroups
is
true
, then pivot
treats missing values, such
as NaN
, in a grouping variable specified by
Columns
or Rows
as a group. If a grouping
variable has no missing values, or if IncludeMissingGroups
is
false
, then pivot
does not treat missing
values as a group.
Example: P =
pivot(T,Columns="Var1",Rows="Var2",IncludeMissingGroups=false)
IncludeEmptyGroups
— Option to include empty categories in pivoting operation
false
or 0
(default) | true
or 1
Since R2023b
Option to include empty categories in the pivoting operation, specified as a
numeric or logical 0
(false
) or
1
(true
). If
IncludeEmptyGroups
is false
, then the pivoting
operation omits empty groups. If IncludeEmptyGroups
is
true
, then the pivoting operation includes empty groups.
An empty group occurs when a possible value of a variable specified by
Columns
or Rows
is not represented in the
input table, such as in a categorical, logical, or binned numeric variable. For
example, if no row in the input table has a value of true
for a
logical grouping variable, then true
defines an empty group.
Example: P =
pivot(T,Columns="Var1",Rows="Var2",IncludeEmptyGroups=true)
RowLabelPlacement
— Placement of row labels in the pivoted table
"variable"
(default) | "rownames"
Since R2023b
Placement of row labels in the pivoted table, specified as one of these values:
"variable"
— Place row labels in the leftmost table variable of the pivoted table. IfRows
specifies multiple grouping variables, place row labels in separate table variables."rownames"
— Place the row labels to the left of the leftmost table variable. This option sets theRowNames
property of the pivoted table to the row group names. IfRows
specifies multiple grouping variables, the pivoted table concatenates the group names with an underscore.
The row labels are defined by the group names in the grouping variables specified
by Rows
.
Example: P =
pivot(T,Rows="Var1",RowLabelPlacement="rownames")
More About
Pivoting Operation
These tables illustrate pivoting operations.
Sample Table T | Syntax Example | Pivoted Table |
---|---|---|
|
pivot(T,Columns="VarA",Rows="VarB") |
|
pivot(T,Columns=["VarA" "VarB"]) |
| |
pivot(T,Rows=["VarA" "VarB"]) |
|
Sample Table T | Syntax Example | Pivoted Table |
---|---|---|
|
pivot(T,Columns="VarA",Rows="VarB",DataVariable="VarD",Method="numunique") |
|
pivot(T,Columns="VarA",Rows=["VarB" "VarC"],DataVariable="VarD",Method="mean") |
| |
pivot(T,Columns=["VarA" "VarB"],Rows="VarC",DataVariable="VarD",Method="sum") |
|
Tips
The
pivot
function can apply the computation method to at most one data variable. To apply multiple computation methods or specify multiple data variables, use thegroupsummary
function.
Alternative Functionality
Live Editor Task
You can use pivot
functionality interactively by adding the
Pivot
Table task to a live script.
Version History
Introduced in R2023aR2024a: Apply multiple binning methods to grouping variable
Apply multiple binning methods to one grouping variable by specifying a cell array of
binning methods for the ColumnsBinMethod
or
RowsBinMethod
name-value argument.
R2023b: Specify row names for pivoted table as row group names
You can now place row labels to the left of the leftmost table variable by setting the
RowLabelPlacement
name-value argument to "rownames"
.
This option sets the RowNames
property of the pivoted table to the row
group names. If Rows
specifies multiple variables, the row labels are the
group names concatenated with an underscore. Previously, the pivoted table always placed row
labels in the leftmost table variables.
R2023b: Include empty groups in pivoting operation
Include, rather than omit, empty groups in the pivoting operation by setting the
IncludeEmptyGroups
name-value argument to true
. An
empty group occurs when a possible value of a variable specified by
Columns
or Rows
is not represented in the input
table, such as in a categorical, logical, or binned numeric variable.
See Also
Functions
groupsummary
|groupcounts
|summary
|unstack
|findgroups
|heatmap
|bar3
Live Editor Tasks
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