File: function.dia.ref

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// =============================================================================
// Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
// Copyright (C) ????-2008 - INRIA
//
//  This file is distributed under the same license as the Scilab package.
// =============================================================================
//Checks syntactical aspects  related to functions
funcprot(0)
//
//               Various calling sequences
//               -------------------------
function y=foo(x)
 y=x^2
endfunction
if foo(2)<>4  then bugmes();quit;end
//
function y=foo(a,b)
 y=a+b
endfunction
if foo(2,3)<>5  then bugmes();quit;end
//
function [y,z]=foo(a)
 y=a^2
 z=a^3
endfunction
[y,z]=foo(2);if y<>4|z<>8 then bugmes();quit;end
//
function y=foo()
 y=2
endfunction
if foo()<>2  then bugmes();quit;end
//
function y=foo
 y=2
endfunction
if foo()<>2  then bugmes();quit;end
//
function []=foo
 y=resume(2)
endfunction
foo();if y<>2  then bugmes();quit;end
//
function foo
 y=resume(3)
endfunction
foo();if y<>3  then bugmes();quit;end
//
//               Various line splits
//               -------------------
function y=foo(x),y=x^2
endfunction
if foo(2)<>4  then bugmes();quit;end
//
function y=foo(x),y=3*x,endfunction
if foo(2)<>6  then bugmes();quit;end
//
function y=foo(x)
  z=x^2
  function y=foo1(x)
    y=x+1
  endfunction
  y=foo1(z)
endfunction
if foo(2)<>5  then bugmes();quit;end 
//
//               Combined with deff
//               -------------------
function y=foo(x)
  z=x^2
  deff('y=foo1(x)','y=x+1')
  y=foo1(z)
endfunction
if foo(2)<>5  then bugmes();quit;end 
//  
deff('y=foo(x)',[
    'z=x^2'
    'function y=foo1(x)'
    'y=x+1'
    'endfunction'
    'y=foo1(z)'])
if foo(2)<>5  then bugmes();quit;end 
		 
function y=foo(x),y=x+1
endfunction;if foo(2)<>3  then bugmes();quit;end
//
//               Combined with exec
//               -------------------
function foo
  z=9;
  function y=foo1(x)
    y=x+1;
  endfunction
  y=foo1(z);
endfunction
exec(foo); if y<>10  then bugmes();quit;end 
//  
//               Combined with control instructions
//               ----------------------------------
if %t then
  function  y=foo(x)
    y=sin(x)
  endfunction
else
  function  y=foo(x)
    y=1
  endfunction
end
if foo(1)<>sin(1)  then bugmes();quit;end
//
if %t then
  function  y=foo(x)
  if x==0 then
    y=1
  else
    y=sin(x)/x
  end
  endfunction
else
  function  y=foo(x)
    y=1
  endfunction
end
if foo(0)<>1   then bugmes();quit;end
if foo(2)<>sin(2)/2   then bugmes();quit;end
//
z=0;
for k=1:2
 function y=foo()
   y=k
 endfunction
 z=z+foo();
end
if z<>3 then bugmes();quit;end
//
z=0;for k=1:2
 function y=foo(),y=k,endfunction
 z=z+foo();
end
if z<>3 then bugmes();quit;end
//
z=0;for k=1:2, function y=foo(),y=k,endfunction
 z=z+foo();
end
if z<>3 then bugmes();quit;end
z=0;
for k=1:2
 function y=foo(k)//qsdsdf
   y=k^2
 endfunction
 z=z+foo();
end
if z<>5 then bugmes();quit;end
z=0;
for k=1:2
 function y=foo(k)//qsdsdf
   y=k^2 //a comment
 endfunction
 z=z+foo();
end
if z<>5 then bugmes();quit;end
z=0;
for k=1:2
 function y=foo(k), y=k^2, endfunction
 z=z+foo();
end
if z<>5 then bugmes();quit;end
z=0;
for k=1:2
 function y=foo(k), y=k^2, endfunction// a comment
 z=z+foo();
end
if z<>5 then bugmes();quit;end
//bug 1024 non regression test
O=[];
for n= 1:10;
  Fx=rand(1,100);
  Fy=1:100;
  function [f,g,ind]=cout(x,ind)
    f1=(1-exp(-x*Fx) - Fy);
    f= (1/2)*f1*f1';
    g= x*(Fx.*exp(-x*Fx))*f1';
  endfunction
  [fopt,lmopt]=optim(cout,0.4);
  O=[O fopt];
end
if size(O,'*')<>10 then bugmes();quit;end
// test line count in compiled macros
// 
function a=foo(),a=1,endfunction
L=macr2lst(foo);
if L(4)(1)<>'6' then bugmes();quit;end
clear foo
function a=foo()
a=1,
endfunction
L=macr2lst(foo);
if L(4)(1)<>'15' then bugmes();quit;end
clear foo
function a=foo()//xxcxcx
a=1,
endfunction
L=macr2lst(foo);
if L(4)(1)<>'31' then bugmes();quit;end
clear foo
function a=foo(),
a=1,
endfunction
L=macr2lst(foo);
if L(4)(1)<>'15' then bugmes();quit;end
clear foo
function a=foo(),a=1//xxcxcx
b=2
endfunction
L=macr2lst(foo);
if L(4)(1)<>'6' then bugmes();quit;end
clear foo
function a=foo()
a=..
sin..
(..
1..
),
endfunction
//continuation lines are replaced by a sequence of empty lines followed by the logical line
//so the function above is  the same as
function a=foo1()
a=sin(1),
endfunction
L=macr2lst(foo);
t=L(9)(1)<>'6';
for k=4:8,t=t|L(k)(1)<>'15';end
if t then bugmes();quit;end
if foo<>foo1 then bugmes();quit;end
clear foo foo1
function a=foo(),a=..
sin..
(..
1..
),
endfunction
//continuation lines are replaced by a sequence of empty lines followed by the logical line
//foo shoud be equal to foo1
function a=foo1(),a=sin(1),
endfunction
L=macr2lst(foo);
if L(4)(1)<>'6'  then bugmes();quit;end
if foo<>foo1 then bugmes();quit;end