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Please note that the recommended version of Scilab is 6.1.0. This page might be outdated.
See the recommended documentation of this function
overloading
display, functions and operators overloading capabilities
Description
In scilab, variable display, functions and operators may be defined for new objects using functions (scilab coded or primitives).
 Display
The display of new objects defined by
tlist
structure may be overloaded (the default display is similar tolist
's one). The overloading function must have no output argument a single input argument. It's name is formed as follow%<tlist_type>_p
where%<tlist_type>
stands for the first entry of thetlist
type component truncated to the first 9 characters. Operators
Each operator which is not defined for given operands type may be defined. The overloading function must have a single output argument and one or two inputs according to the number of operands. The function name is formed as follow:
for binary operators:
%<first_operand_type>_<op_code>_<second_operand_type>
for unary operators:
%<operand_type>_<op_code>
extraction and insertion operators which are nnary operators are described below.
Be careful, only the types registered by the
typename
function can be used in an overloading
macros
<operand_type>
,
<first_operand_type>
,
<second_operand_type>
are sequence of characters
associated with each data type as described in the following table:
data type  char code  typeof  comments 
double matrix  s 
constant 

polynomial matrix  p 
polynomial 

boolean matrix  b 
boolean 

sparse matrix  sp 
sparse 

boolean sparse matrix  spb 
boolean sparse 

Matlab sparse matrix  msp 
Matlab sparse 

integer matrix  i 
int8, int16,int32, uint8, uint16, uint32 

string matrix  c 
string 

handle  h 
handle 

compiled function  fptr 
fptr 

script function  mc 
function 

library  f 
library 

list  l 
list 

tlist  tlist type 
tlist type 
the first string in the first tlist entry 
mlist  mlist type 
mlist type 
the first string in the first mlist entry 
hypermatrix  hm 
hypermat 

pointer  ptr 
pointer 

cell  ce 
ce 

structure  st 
st 

rational  r 
rational 

linear state space  lss 
statespace 

implicit polynom  ip 
size implicit 
1:1:$ 
<op_code>
is a single character associated
with each operator as described in the following table:
op 
char code 
' 
t 
+ 
a 
 
s 
* 
m 
/ 
r 
\ 
l 
^ 
p 
.* 
x 
./ 
d 
.\ 
q 
.*. 
k 
./. 
y 
.\. 
z 
: 
b 
*. 
u 
/. 
v 
\. 
w 
[a,b] 
c 
[a;b] 
f 
() extraction 
e 
() insertion 
i 
== 
o 
<> 
n 
 
g 
& 
h 
.^ 
j 
.' 
0 
< 
1 
> 
2 
<= 
3 
>= 
4 
~ 
5 
iext 
6 
The overloading function for extraction syntax b= a(i1,
..., in)
has the following calling sequence: b =
%<type_of_a>_e_(i1, ..., in, a)
and the syntax [x1, .., xm] = a(i1, ..., in)
has
the following calling sequence: [x1, .., xm] =
%<type_of_a>_e_(i1, ..., in, a)
The overloading function associated to the insertion syntax
a(i1, ..., in) = b
has the following calling sequence:
a = %<type_of_b>_i_<type_of_a>(i1, ..., in, b,
a)
.
The 6
char code may be used for some complex
insertion algorithm like x.b(2) = 33
where
b
field is not defined in the structure
x
. The insertion is automatically decomposed into
temp = x.b;
temp(2) = 33;
x.b = temp
. The 6
char code is used
for the first step of this algorithm. The 6
overloading
function is very similar to the e
's one.
 Functions :
Some basic primitive function
may also be overloaded for new data type. When such a function is undefined for a particular data types the function
%<type_of_an_argument>_<function_name>
is called. User may add in this called function the definition associated with the input data types.
Examples
//OPERATOR function x=%c_a_s(a, b) x = a + string(b); endfunction 's' + 1
//FUNCTION function x=%c_sin(a) x = 'sin(' + a + ')' endfunction sin('2 * x')
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