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Started by RuiLoureiro, May 31, 2012, 10:59:09 PM

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RuiLoureiro

#180
 :biggrin:
Hi all
Hi HSE,

        This is to show the first set of tests that i did today
        about derivatives following my own (and new) algorithm that uses
        local stack variables (more than 130 000 bytes in 13 structures +
        some particular variables).
        It is not ready yet because the calculator solves each expression case by case.
        As soon as possible i will post it.

        See you
        Good luck   :t
:icon14:
         some basic tests in 3 Fev 2017

         [sqr(x)+log(x)+ln(x)+exp(x)+sin(x)+cos(x)+tan(x)+sec(x)+csc(x)+cot(x)]',

         [sinh(x)+cosh(x)+tanh(x)+sech(x)+csch(x)+coth(x)]',

         [sind(x)+cosd(x)+tand(x)+secd(x)+cscd(x)+cotd(x)]',

         [arcsin(x)+arccos(x)+arctan(x)+arcsec(x)+arccsc(x)+arccot(x)]',

         [arcsind(x)+arccosd(x)+arctand(x)+arcsecd(x)+arccscd(x)+arccotd(x)]'

         [arcsinh(x)+arccosh(x)+arctanh(x)+arcsech(x)+arccsch(x)+arccoth(x)]'
         
         [sqr(-x)+log(-x)+ln(-x)+exp(-x)+sin(-x)+cos(-x)+tan(-x)+sec(-x)+csc(-x)+cot(-x)]',

Quote
Friday, 03-02-2017  14:45:11

input box=>     [sqr(x)      +log(x)       +ln(x) +exp(x) +sin(x) +cos(x) +tan(x)   +sec(x)        +csc(x)        +cot(x)]'

solution box1=> 1/(2*sqr(x)) +1/(ln(10)*x) +1/x   +exp(x) +cos(x) -sin(x) +sec(x)^2 +sec(x)*tan(x) -csc(x)*cot(x) -csc(x)^2
; ----------------------------------------------------------------------------------------------
Friday, 03-02-2017  16:20:26

input box=>      [sqr(-x)      +log(-x)       +ln(-x) +exp(-x) +sin(-x) +cos(-x) +tan(-x)   +sec(-x)        +csc(-x)          +cot(-x)]'

solution box1=> -1/(2*sqr(-x)) -1/(-ln(10)*x) +1/x    -exp(-x) -cos(-x) +sin(-x) -sec(-x)^2 -sec(-x)*tan(-x) +csc(-x)*cot(-x) +csc(-x)^2

++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  14:51:53

input box=> [sinh(x)+cosh(x)+tanh(x)+sech(x)+csch(x)+coth(x)]'

solution box1=> cosh(x)+sinh(x)+sech(x)^2+sech(x)*tanh(x)-csch(x)*coth(x)-csch(x)^2

+++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  14:53:53

input box=> [sind(x)+cosd(x)+tand(x)+secd(x)+cscd(x)+cotd(x)]'

solution box1=> cosd(x)-sind(x)+secd(x)^2+secd(x)*tand(x)-cscd(x)*cotd(x)-cscd(x)^2

; ##########################################################
Friday, 03-02-2017  15:04:05

input box=> [arcsin(x)+arccos(x)+arctan(x)+arcsec(x)+arccsc(x)+arccot(x)]'

solution box1=> 1/sqr(1-x^2)-1/sqr(1-x^2)+1/(1+x^2)+1/(abs(x)*sqr(x^2-1))-1/(abs(x)*sqr(x^2-1))-1/(1+x^2)
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  15:05:51

input box=> [arcsind(x)+arccosd(x)+arctand(x)+arcsecd(x)+arccscd(x)+arccotd(x)]'

solution box1=> 1/sqr(1-x^2)-1/sqr(1-x^2)+1/(1+x^2)+1/(abs(x)*sqr(x^2-1))-1/(abs(x)*sqr(x^2-1))-1/(1+x^2)

+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  15:08:02

input box=> [arcsinh(x)+arccosh(x)+arctanh(x)+arcsech(x)+arccsch(x)+arccoth(x)]'

solution box1=> 1/sqr(x^2+1)-1/sqr(x^2-1)+1/(1-x^2)
-1/(x*sqr(1-x^2))-1/(abs(x)*sqr(1+x^2))-1/(1+x^2)
; «««««««««««««««««««««««««««««««««««««««««««««««««««««««««««««««««««««««
Friday, 03-02-2017  22:31:57

input box=> [sin(x^2+x)]'

solution box1=> (2*x+1)*cos(x^2+x)
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  22:37:01

input box=> [e^x+sin(x^2+x)-x^-2+arccos(x^2+x)]'

solution box1=> e^x+(2*x+1)*cos(x^2+x)+2*x^-3-(2*x+1)*1/sqr(1-(x^2+x)^2)
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  22:43:28

input box=> [3*x^4-2*x^3+x^2+x-1]'

solution box1=> 12*x^3-6*x^2+2*x+1
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Friday, 03-02-2017  22:46:04

input box=> [sin(3*x^4-2*x^3+x^2+x-1)]'

solution box1=> (12*x^3-6*x^2+2*x+1)*cos(3*x^4-2*x^3+x^2+x-1)

HSE

Equations in Assembly: SmplMath

RuiLoureiro

Quote from: HSE on February 05, 2017, 02:37:54 AM
Fantastic Rui  :t
Thanks HSE  :t
Hi
    3 examples of one nested function
    Good luck
Quote
Saturday, 04-02-2017  15:36:23

input box=>                        [sin(cos(x^2)+x)]'

solution box1=> (-2*x*sin(x^2)+1) * cos(cos(x^2)+x)
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Saturday, 04-02-2017  15:38:11

input box=>            [sin(cos(x))]'

solution box1=> -sin(x)*cos(cos(x))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Saturday, 04-02-2017  21:54:50

input box=>                                                                     [cos(x^-2-4*x+arctan(x^2+x-1)+x)]'

solution box1=> -(-2*x^-3-4+(2*x+1)*1/(1+(-x^2-x+1)^2)+1)* sin(x^-2-4*x+arctan(x^2+x-1)+x)

RuiLoureiro

 :biggrin: :biggrin:
Hi all
Hi HSE

        Here are examples of 3 functions: 2 nested functions and 3 nested functions
        As soon as possible, i will post it ( wait some more weeks ).
        And i  will say something about the algorithm (it is very simple ;) ).

        To HSE: then i will test your derivator (and you test mine).
       To Hutch: using a table of pointers does the work more simple  :t 


        See you
        Good luck  :t
       
Quote
Sunday, 05-02-2017  14:06:05

input box=>                                                       [sin(x^2-cos(tan(x^2-x)+x))]'

solution box1=> (2*x+((2*x-1)*sec(x^2-x)^2+1)*sin(tan(x^2-x)+x)) * cos(x^2+cos(tan(x^2-x)+x))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Sunday, 05-02-2017  14:12:11

input box=> [x^2-cos(tan(x^2-x)+x)]'            <------ Derivative of the argument ABOVE

solution box1=> 2*x+((2*x-1)*sec(x^2-x)^2+1) * sin(tan(x^2-x)+x)
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Sunday, 05-02-2017  14:16:46

input box=> [cos(tan(x^2-x)+x)]'                <------ Derivative of the function ABOVE

solution box1=> -((2*x-1)*sec(x^2-x)^2+1)*sin(tan(x^2-x)+x)
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Sunday, 05-02-2017  14:19:50

input box=> [tan(x^2-x)+x]'                     <------ Derivative of the argument ABOVE

solution box1=> (2*x-1)*sec(x^2-x)^2+1
            example of 4 functions: 3 nested functions
Quote
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Sunday, 05-02-2017  14:35:17

input box=>                        [sin(x^2-cos(tan(ln(x^2-x)-x^3)+x))]'

solution box1=>  (2*x+(((2*x-1)*1/(x^2-x)-3*x^2)*sec(ln(x^2-x)-x^3)^2+1)*sin(tan(ln(x^2-x)-                                          x^3)+x)) * cos(x^2+cos(tan(ln(x^2-x)-x^3)+x))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
               Monday, 06-02-2017  00:05:22

input box=>                              [sin(x^2-cos(x^2-x)-ln(x^3))+x]'

solution box1=> (2*x+(2*x-1)*sin(x^2-x)-3*x^2*1/x^3)*cos(x^2-cos(x^2-x)+ln(x^3))+1

RuiLoureiro

 :biggrin: :biggrin:
Hi all
        examples of 4, 5 and 6 nested functions
        (max. number of nested functions=6 -last argument x -
        or 5 nested functions with last argument g(x) ).
        This is because we have only tables ResA,ResB,ResC,ResD,ResE,ResF
        to solve each case: first function-> Table ResA, and so on.
        I think we dont need more than this and this is too much.

        See you
        Good luck  :t
         :icon14:
       
Quote
Monday, 06-02-2017  12:38:09

input box=> [cos(sin(tan(sec(csc(x)))))]'


solution box1=> csc(x)*cot(x)*sec(csc(x))*tan(csc(x))*sec(sec(csc(x)))^2*cos(tan(sec(csc(x)))) * sin(sin(tan(sec(csc(x)))))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  14:55:54

input box=>       [cos(sin(tan(sec(cot(csc(x))))))]'

solution box1=> -csc(x)*cot(x)*csc(csc(x))^2*sec(cot(csc(x)))*tan(cot(csc(x)))*sec(sec(cot(csc(x))))^2
                * cos(tan(sec(cot(csc(x)))))*sin(sin(tan(sec(cot(csc(x))))))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  15:10:01

input box=> [cos(sin(tan(sec(cot(arcsin(x^2-x))))))]'


solution box1=> (2*x-1)/sqr(1-(x^2-x)^2)*csc(arcsin(x^2-x))^2*sec(cot(arcsin(x^2-x)))*tan(cot(arcsin(x^2-x)))*sec(
sec(cot(arcsin(x^2-x))))^2*cos(tan(sec(cot(arcsin(x^2-x)))))*sin(sin(tan(sec(cot(arcsin(x^2-x))))))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  15:13:05

input box=> [cos(sin(tan(sec(cot(arcsin(csc(x)))))))]'

solution box1=> -csc(x)*cot(x)/sqr(1-csc(x)^2)*csc(arcsin(csc(x)))^2*sec(cot(arcsin(csc(x))))*tan(cot(arcsin(csc(x
))))*sec(sec(cot(arcsin(csc(x)))))^2*cos(tan(sec(cot(arcsin(csc(x))))))*sin(sin(tan(sec(cot(arcsin(csc(x)))))))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  15:27:54

input box=> [cos(sin(tan(sec(cot(arcsin(x^2-x)+x^2)-2*x)+5)-3*x^2))]'

solution box1=> -((-((2*x-1)/sqr(1-(x^2-x)^2)+2*x)*csc(arcsin(x^2-x)+x^2)^2-2)*sec(cot(arcsin(x^2-x)+x^2)-2*x)*tan
(cot(arcsin(x^2-x)+x^2)-2*x)*sec(sec(cot(arcsin(x^2-x)+x^2)-2*x)+5)^2-6*x)*cos(tan(sec(cot(arcsin(x^2-x)+x^2)-2*x)
+5)-3*x^2)*sin(sin(tan(sec(cot(arcsin(x^2-x)+x^2)-2*x)+5)-3*x^2))
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  15:36:15

input box=> [cos(sin(tan(sec(cot(arcsin(x^2-x))))))-cos(sin(tan(sec(cot(arcsin(x^2-x))))))]'

solution box1=> (2*x-1)/sqr(1-(x^2-x)^2)*csc(arcsin(x^2-x))^2*sec(cot(arcsin(x^2-x)))*tan(cot(arcsin(x^2-x)))*sec(
                sec(cot(arcsin(x^2-x))))^2*cos(tan(sec(cot(arcsin(x^2-x))))) * sin(sin(tan(sec(cot(arcsin(x^2-x))))))
               -(2*x-1)/sqr(1-(x^2-x)^2)*csc(arcsin(x^2-x))^2*sec(cot(arcsin(x^2-x)))*tan(cot(arcsin(x^2-x)))*sec(
                sec(cot(arcsin(x^2-x))))^2*cos(tan(sec(cot(arcsin(x^2-x))))) * sin(sin(tan(sec(cot(arcsin(x^2-x))))))
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  17:45:08

input box=> [sqr(x)+ten(x)+log(x)+ln(x)+exp(x)+sin(x)+cos(x)+tan(x)+sec(x)+csc(x)+cot(x)+sinh(x)+cosh(x)+
tanh(x)+sech(x)+csch(x)+coth(x)+sind(x)+cosd(x)+tand(x)+secd(x)+cscd(x)+cotd(x)+arcsin(x)
+arccos(x)+arctan(x)+arcsec(x)+arccsc(x)+arccot(x)+arcsind(x)+arccosd(x)+arctand(x)+arcsecd(x)
+arccscd(x)+arccotd(x)+arcsinh(x)+arccosh(x)+arctanh(x)+arcsech(x)+arccsch(x)+arccoth(x)]'

solution box1=> 1/(2*sqr(x))+ln(10)*ten(x)+1/(ln(10)*x)+1/x+exp(x)+cos(x)-sin(x)+sec(x)^2+sec(x)*tan(x)-csc(x)*cot
(x)-csc(x)^2+cosh(x)+sinh(x)+sech(x)^2+sech(x)*tanh(x)-csch(x)*coth(x)-csch(x)^2+cosd(x)-sind(x)+secd(x)^2+secd(x)
*tand(x)-cscd(x)*cotd(x)-cscd(x)^2+1/sqr(1-x^2)-1/sqr(1-x^2)+1/(1+x^2)+1/(abs(x)*sqr(x^2-1))-1/(abs(x)*sqr(x^2-1))
-1/(1+x^2)+1/sqr(1-x^2)-1/sqr(1-x^2)+1/(1+x^2)+1/(abs(x)*sqr(x^2-1))-1/(abs(x)*sqr(x^2-1))-1/(1+x^2)+1/sqr(x^2+1)-
1/sqr(x^2-1)+1/(1-x^2)-1/(x*sqr(1-x^2))-1/(abs(x)*sqr(1+x^2))-1/(1+x^2)

RuiLoureiro

Hi HSE,
    see this given by the Derivator:
    (the cleaner is too much good: cleans all things  ;)
    See you  :t
   :icon14:
Quote
expression:
             cos(sin(arctan(x^2-x)))

result:
(-sin(sin(arctan(x^2-x)))*((cos(arctan(x^2-x))*(((((+0))))))))

   +0
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
                                           TheCalculator
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  23:45:48

input box=> [cos(sin(arctan(x^2-x)))]'

solution box1=> -(2*x-1)/(1+(x^2-x)^2)*cos(arctan(x^2-x))*sin(sin(arctan(x^2-x)))

HSE

 :biggrin: because it's "arctg".  I will make a list of sinonimus :t .
Is posible to treat sind as sin, or that kind of functions have different properties?
Equations in Assembly: SmplMath

RuiLoureiro

Quote from: HSE on February 07, 2017, 09:17:14 PM
:biggrin: because it's "arctg".  I will make a list of sinonimus :t .
Is posible to treat sind as sin, or that kind of functions have different properties?
Hi HSE,

Oh sorry if it is not a function name (arctan) it should give a syntax error.
But ok, i replaced by arctg and the result seems to be correct after i cleaned the unnecessary
brackets and make some calculations and simplifications. For common people the result
is unreadable, so i think that you should do some more work to clean brackets and to replace
things like 2-1 by 1, x^1 by x, (2) by only 2, ... Think about this.
Another thing is when we use "save as" the result, it should save the expression and the result
because that result is for that particular expression and not for another.
About sind, cosd, arcsind, and so on, they are the same functions as sin, cos, etc but the argument is in degrees or the result is in degrees (arcsind, ...)- it is written in TheClaculator messages, run and read.
note: i use also the function ten(x) = 10^x ( exp(x)=e^x ).
See you  :t

HSE

Hi Rui!

I think you have activated option "show only crude derivatives" (see in "options" menu). It's a development option.
Thanks for the ideas. :t
Equations in Assembly: SmplMath

RuiLoureiro

Hi
    This is to show the derivatives of a product:

                integer * function(x)

    The calculator simplify some expressions but not
    integer*integer ( 2*2 in the first example). But
    soon it will do.

    See you
    Good luck  :t
   
Quote
Wednesday, 08-02-2017  20:35:18

input box=>     [2*sin(x^2)]'

solution box1=> 2*2*x*cos(x^2)      <<---- 4*x*cos(x^2)

+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Wednesday, 08-02-2017  20:36:10

input box=> [2*sin(cos(x))]'

solution box1=> -2*sin(x)*cos(cos(x))

+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Wednesday, 08-02-2017  22:17:26

input box=> [2*sin(cos(tan(x^2-x+1)))]'

solution box1=> -2*(2*x-1)*sec(x^2-x+1)^2*sin(tan(x^2-x+1))*cos(cos(tan(x^2-x+1)))

++++++++++ OLD solution +++++++++++++++++++++++++++++++++++++++++++++++++
Monday, 06-02-2017  10:15:55

input box=> [x^2-cos(tan(ln(x^2-x)-ln(x^3))+x)]'     <<<<<<<<<<<- SIMPLIFY SOLUTION

solution box1=> 2*x+(((2*x-1)/(x^2-x)-3*x^2/x^3)*sec(ln(x^2-x)+ln(x^3))^2+1)*sin(tan(ln(x^2-x)+ln(x^3))+x)

++++++++++ NEW solution +++++++++++++++++++++++++++++++++++++++++++++
Wednesday, 08-02-2017  23:08:38

input box=> [x^2-cos(tan(ln(x^2-x)-ln(x^3))+x)]'

solution box1=> 2*x+(((2*x-1)-3*x^-1)*sec(ln(x^2-x)-ln(x^3))^2+1)*sin(tan(ln(x^2-x)-ln(x^3))+x)

hutch--

I have moved this topic because its a long term project, not a Campus style question.

RuiLoureiro

Hi all,
        This is the link to the new version 2017:

                >>>>   http://masm32.com/board/index.php?topic=6197.0   <<<<<<

Good luck