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See the recommended documentation of this function
struct
Builds a structure or an array of structures
Syntax
st = struct(field1, value1, field2, value2, ...)
Arguments
- field1, field2, ...
- strings: Case-sensitive names of the fields of the structure.
- value1, value2, ...
Data assigned to the respective fields. All data types are supported.
If several values are non-scalar cells arrays, then they must have the same size. For any scalar cell, the cell's container is stripped off, and its content is considered and assigned to the field as a whole. The processing of non-scalar cells is described here-below.
- st
- Scalar structure, or array of structures if at least one value is a non-scalar cells array.
Description
Scalar structure
If none of values value1
,
value2
, ..., valueN
is a non-scalar
cells array,
st = struct(field1, value1, field2, value2, ...)
builds
a scalar structure st
(of size 1×1) with fields and values
st.field1=value1
, st.field2=value2
, ...,
st.fieldN=valueN
.
The value of any field of such a scalar structure can be a scalar or an array.
The sizes of values of distinct fields can be distinct. Example:
st = struct("u",[2 3], "v",[%t %f ; %f %t], "w","Hello")
is
perfectly allowed and sets st.u=[2 3]
,
st.v=[%t %f ; %f %t]
, and st.w="Hello"
It is possible to assign a scalar or non-scalar cells array to the field of a
scalar structure by embedding it in a scalar cell. Examples:
st = struct("num",1:3, "c",{{sin}})
will set
st.num=1:3
and st.c={sin}
; while
st = struct("text","Hello", "test",{{1, sin ; %t %z}})
will set
st.text="Hello"
and st.test={1,sin;%t,%z}
.
Array of structures
struct(..) allows to build any array -- vector, matrix or ND-array -- of structures.
All elements of the array have then the same set of fields field1
,
field2
, .., fieldN
.
Indeed, when at least one of the given values is a non-scalar
cells array
C
, st=struct(..,field,C,..)
builds an array
of structures with size(st)==size(C)
, and sets
st(i).field=C{i}
for any index i.
In this case, any scalar values defined for some other specified fields are
replicated and set for all st
elements.
Example #1: st=struct("u", {-1,%f,%z})
defines a 1×3 row vector
of structures with a single field "u" with values st(1).u=-1
,
st(2).u=%f
, and st(3).u=%z
.
Example #2: st=struct("u", {-1 ; %f}, "t", "Hi")
defines a 2×1
column vector of structures with two fields "u" and "t" with values
st(1,1).u=-1
, st(1,1).t="Hi"
,
st(2,1).u=%f
, st(2,1).t="Hi"
.
type(st) returns 17 ,
and typeof(st) returns "st" . |
Examples
// Create a scalar Dates structure Dates = struct('day',25, 'month','DEC', 'year',2006) Dates.month = 'AUG' // change the month Dates.year = 1973; // change the year Dates.weekday = "Saturday" // Add a new field // Create a 2nd element, to make Dates a vector of dates: Dates(1,2).year = 2020 Dates(2) // Note that the default fields value is [] // Building the full Dates(2) structure element for all fields. // The same fields can be declared in any other order: Dates(2) = struct('year',2000, 'day',29, 'weekday',"Tuesday", 'month', "FEB") Dates(2) Dates(2,3) = struct('weekday',"Sunday", 'day',7, 'month',"FEB", 'year',2021) Dates(2,3) size(Dates) length(Dates)
--> Dates = struct('day',25, 'month','DEC', 'year',2006) Dates = day = 25 month = "DEC" year = 2006 --> Dates.month = 'AUG' // change the month Dates = day = 25 month = "AUG" year = 2006 --> Dates.year = 1973; // change the year --> Dates.weekday = "Saturday" // Add a new field Dates = day = 25 month = "AUG" year = 1973 weekday = "Saturday" --> // Create a 2nd element, to make Dates a vector of dates: --> Dates(1,2).year = 2020 Dates = 1x2 struct with fields: ["day", "month", "year", "weekday"] --> Dates(2) // Note that the default fields value is [] ans = day = [] month = [] year = 2020 weekday = [] --> // Building the full Dates(2) structure element for all fields. --> // The same fields can be declared in any other order: --> Dates(2) = struct('year',2000, 'day',29, 'weekday',"Tuesday", 'month', "FEB") Dates = 1x2 struct with fields: ["day", "month", "year", "weekday"] --> Dates(2) ans = day = 29 month = "FEB" year = 2000 weekday = "Tuesday" --> Dates(2,3) = struct('weekday',"Sunday", 'day',7, 'month',"FEB", 'year',2021) Dates = 2x3 struct with fields: ["day", "month", "year", "weekday"] --> Dates(2,3) ans = day = 7 month = "FEB" year = 2021 weekday = "Sunday" --> size(Dates) ans = 2. 3. --> length(Dates) ans = 6.
Array of structures built from scratch:
Dates = struct("day",{10 3 ; 25 17}, "month",{"SEP" "JUN" ; "APR" "NOV"}, "year",2020) Dates(2,1)
--> Dates = struct("day",{10 3 ; 25 17}, "month",{"SEP" "JUN" ; "APR" "NOV"}, "year",2020) Dates = 2x2 struct with fields: ["day", "month", "year"] --> Dates(2,1) ans = day = 25 month = "APR" year = 2020
Structure with cells as a field's value:
test = struct("number", %pi, "bool",[%f %f], "myCell",{{2 "-5";(1-%z)^3,%t}}) test.myCell test.myCell{2,1}
--> test = struct("number", %pi, "bool",[%f %f], "myCell",{{2 "-5";(1-%z)^3,%t}}) test = number = 3.1415927 bool = [%f,%f] myCell: [2x2 cell] --> test.myCell ans = [1x1 constant ] [1x1 string ] [1x1 polynomial] [1x1 boolean] --> test.myCell{2,1} ans = 1 -3z +3z² -z³
See also
- fieldnames — get a tlist, mlist or struct fields names
- tree_show — Displays a tree view of a list, tlist, mlist, cell or structure array, Xcos block
- makecell — Creates a cell array.
- mlist — Scilab object, matrix oriented typed list definition
- tlist — Scilab object and typed list definition.
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