table
Syntax
table(X, [X1], [X2], …..)
or
table(capacity:size, colNames, colTypes)
Arguments
For the first scenario:
X, X1, X2 … can be vectors, matrices or tuples.
For the second scenario:
capacity is a positive integer indicating the amount of memory (in terms of the number of rows) allocated to the table. When the number of rows exceeds capacity, the system will first allocate memory of 1.2~2 times of capacity, copy the data to the new memory space, and release the original memory. For large tables, these steps may use significant amount of memory.
size is an integer no less than 0 indicating the initial size (in terms of the number of rows) of the table. If size=0, create an empty table; If size>0, the initialized values are:
false for Boolean type;
0 for numeric, temporal, IPADDR, COMPLEX, and POINT types;
NULL for Literal, INT128 types.
colNames is a string vector of column names.
colTypes is a string vector of data types. It can use either the reserved words for data types or corresponding strings.
Details
For the first scenario:
Converts vectors/matrices/tuples, or the combination of vectors and tuples into a table.
Note:
If Xk is a regular tuple, its elements must be vectors of equal length which is the number of rows of the table. Each element of the tuple is treated as a column of the table.
If Xk is a columnar tuple, its elements can be of unequal length, but the number of its elements must be the same as the number of rows in the table. Xk is converted into a single column (of ANY type) of the table, and each element is stored as the value of each row.
Regular tuples with elements of unequal length are stored as columnar tuples in DolphinDB. For tuples with elements of equal length, to store each element by row, you must convert them to columnar tuples with the setColumnarTuple! function.
For the second scenario:
Creates an empty or initialized table of a fixed data type.
Examples
Examples of table(X, [X1], [X2], …..):
$ id=`XOM`GS`AAPL
$ x=102.1 33.4 73.6
$ table(id, x);
id |
x |
|---|---|
XOM |
102.1 |
GS |
33.4 |
AAPL |
73.6 |
$ table(`XOM`GS`AAPL as id, 102.1 33.4 73.6 as x);
id |
x |
|---|---|
XOM |
102.1 |
GS |
33.4 |
AAPL |
73.6 |
In the following example, table t is created from a vector x, a matrix y and a tuple z.
$ x=1..6
$ y=matrix(11..16, 17..22)
$ z=(101..106, 201..206)
$ t=table(x,y,z)
$ t.rename!(`x`y1`y2`z1`z2);
$ t;
x |
y1 |
y2 |
z1 |
z2 |
|---|---|---|---|---|
1 |
11 |
17 |
101 |
201 |
2 |
12 |
18 |
102 |
202 |
3 |
13 |
19 |
103 |
203 |
4 |
14 |
20 |
104 |
204 |
5 |
15 |
21 |
105 |
205 |
6 |
16 |
22 |
106 |
206 |
Convert a matrix into a table:
$ m=matrix(1 2, 3 4, 5 6);
$ m;
#0 |
#1 |
#2 |
|---|---|---|
1 |
3 |
5 |
2 |
4 |
6 |
$ t=table(m).rename!(`a`b`x);
$ t;
a |
b |
x |
|---|---|---|
1 |
3 |
5 |
2 |
4 |
6 |
Examples of table(capacity:size, colNames, colTypes):
$ table(100:5, `name`id`value, [STRING,INT,DOUBLE]);
name |
id |
value |
|---|---|---|
0 |
0 |
|
0 |
0 |
|
0 |
0 |
|
0 |
0 |
|
0 |
0 |
$ table(100:5, `name`id`value, `STRING`INT`DOUBLE);
name |
id |
value |
|---|---|---|
0 |
0 |
|
0 |
0 |
|
0 |
0 |
|
0 |
0 |
|
0 |
0 |
$ table(100:1, [`value], [DOUBLE]);
value |
|---|
0 |