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manual:chapter5:asm [2019/12/03 15:50]
claudio [Flow control]
manual:chapter5:asm [2019/12/05 14:03] (current)
jojo1973 [Simple assignments with operators] Added a particular syntax regarding register R
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 |  :::  |  :::  | ''​ASIN'' ​ |  :::  |  :::  | ''​MAX'' ​ | |  :::  |  :::  | ''​ASIN'' ​ |  :::  |  :::  | ''​MAX'' ​ |
 |  :::  |  :::  | ''​ACOS'' ​ |  :::  |  :::  | ''​RND'' ​ | |  :::  |  :::  | ''​ACOS'' ​ |  :::  |  :::  | ''​RND'' ​ |
-|  :::  |  :::  | ''​ATAN''​ |  :::  |  :::  |    +|  :::  |  :::  | ''​ATAN''​ |  :::  |  :::  | ''​CLR''  ​
-|  :::  |  :::  | ''​SINH'' ​ |  :::  |  :::  |  :::  ​+|  :::  |  :::  | ''​SINH'' ​ |  :::  |  :::  |   ​
-|  :::  |  :::  | ''​COSH'' ​ |  :::  |  :::  |  :::  ​|+|  :::  |  :::  | ''​COSH'' ​ |  :::  |  :::  |    |
 |  :::  |  :::  | ''​TANH'' ​ |  :::  |  :::  |  :::  | |  :::  |  :::  | ''​TANH'' ​ |  :::  |  :::  |  :::  |
 |  :::  |  :::  | ''​ASINH'' ​ |  :::  |  :::  |  :::  | |  :::  |  :::  | ''​ASINH'' ​ |  :::  |  :::  |  :::  |
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 | '':​A=S2''​ '':​S2=S1''​ '':​S1=A'' ​ | Swap stack level 1 with level 2 using register ''​A''​ as temporary storage. An error is raised if the stack contains less than 2 levels ​ | | '':​A=S2''​ '':​S2=S1''​ '':​S1=A'' ​ | Swap stack level 1 with level 2 using register ''​A''​ as temporary storage. An error is raised if the stack contains less than 2 levels ​ |
 | '':​C+=B^#​2'' ​ | Square the value register ''​B''​ and adds the result to register ''​C'' ​ | | '':​C+=B^#​2'' ​ | Square the value register ''​B''​ and adds the result to register ''​C'' ​ |
 +| '':​B=R^#​2 π'' ​ | Assign ''​%%'​%%π^2%%'​%%''​ to register B. This example shows that register ''​R''​ must not necessarily be the second argument of a binary operator ​ |
  
 ==== Assignment with math functions ==== ==== Assignment with math functions ====
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 | ''​AL'' ​   | Always ​                | ---       | ---       | | ''​AL'' ​   | Always ​                | ---       | ---       |
 | ''​LT'' ​   | Less Than              | ---       | Set       | | ''​LT'' ​   | Less Than              | ---       | Set       |
-| ''​EQ'' ​   | Equals ​                | Set       | ---       |+| ''​EQ'' ​or ''​Z''  ​| Equals ​                | Set       | ---       |
 | ''​LE'' ​   | Less Than or Equals ​   | ---       | Set       | | ''​LE'' ​   | Less Than or Equals ​   | ---       | Set       |
 | :::       | :::                    | Set       | ---       | | :::       | :::                    | Set       | ---       |
 | ''​NA'' ​   | Never                  | ---       | ---       | | ''​NA'' ​   | Never                  | ---       | ---       |
 | ''​GE'' ​   | Greater Than or Equals | ---       | Clear     | | ''​GE'' ​   | Greater Than or Equals | ---       | Clear     |
-| ''​NE'' ​   | Not Equals ​            | Clear     | ---       |+| ''​NE'' ​or ''​NZ''  ​| Not Equals ​            | Clear     | ---       |
 | ''​GT'' ​   | Greater Than           | Clear     | Clear     | | ''​GT'' ​   | Greater Than           | Clear     | Clear     |
  
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 | '':​PUSH.A.#​3''​ | Reverse of '':​POP''​. In this example will do '':​P=C'',​ '':​P=B''​ and '':​P=A'' ​ | | '':​PUSH.A.#​3''​ | Reverse of '':​POP''​. In this example will do '':​P=C'',​ '':​P=B''​ and '':​P=A'' ​ |
 | '':​RPUSH.A.#​3'' ​ | Reverse of '':​RPOP''​. In this example will do '':​P=A'',​ '':​P=B'',​ and '':​P=C'' ​ | | '':​RPUSH.A.#​3'' ​ | Reverse of '':​RPOP''​. In this example will do '':​P=A'',​ '':​P=B'',​ and '':​P=C'' ​ |
 +| '':​CLR.A.#​3''​ | Set registers to zero (clear) starting with ''​A'',​ and as many registers as requested. In this example will do '':​A=0'',​ '':​B=0''​ and '':​C=0'' ​ |
  
 ==== Example code ==== ==== Example code ====
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   -103 SF             @ Complex results   -103 SF             @ Complex results
   :​A=RPOP.S1.#​3 ​      @ Store coefficients in registers   :​A=RPOP.S1.#​3 ​      @ Store coefficients in registers
-  :CMP.A.#0 :FPUSH.EQ @ a=0? Push test on the stack +  :AND.A.C            @ Are either zero? 
-  :CMP.C.#0 :FPUSH.EQ @ c=0? Push test on the stack +  :SKIP.NZ            @ Skip next seco if both A and C were non-zero
-  OR                  ​@ Are either zero? +
-  :CMP.S1.#1 DROP     @ Turn newRPL boolean into flags and discard it +
-  :SKIP.NE            @ Skip next seco if false+
   :: "Zero Input Invalid"​   :: "Zero Input Invalid"​
      ​DOERR ​           @ Abort with error      ​DOERR ​           @ Abort with error
   ;   ;
-  :P=#0-B             ​@ ​Push -B on stack +  :D=#0-B             @ -B 
-  ​DUP SQ              ​@ ​-B, B^2 +  ​:​E=B*B ​             @ B^2 
-  ​:S1*=A :S1*=C     ​@ -B, B^24*A*C +  :F=#4*A :F*=C       ​4*A*C 
-  ​- √                 @ -B√(B^2-4*A*C) +  :E-=F   :​E=SQRT.E ​  @ √(B^2-4*A*C) 
-  :P=B SIGN *       ​@ -B-SIGN(B)*√(B^2-4*A*C) +  ​ 
-  ​2 / :S1/=A          @ (-B-SIGN(B)*√(B^2-4*A*C))/​2/​A is R1, the largest root in absolute value +  :CMP.B.#0 
-  :P=C :S1/=        ​@ R1, C/A+  :SKIP.GE :​F=D+E ​    @ -B+√(B^2-4*A*C) ​when B<=0 
 +  :SKIP.LT :F=D-E     @ -B-√(B^2-4*A*C) ​when B>0 
 +  ​ 
 +  :E=A*#2             @ 2*A 
 +  :​P=F/​E ​             ​@ (-B-SIGN(B)*√(B^2-4*A*C))/​2/​A is R1, the largest root in absolute value 
 +  :​P=C/​A ​             @ R1, C/A
   :​S1/​=S2 ​            @ C/(R1*A) is R2, the other root   :​S1/​=S2 ​            @ C/(R1*A) is R2, the other root
 » »
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     :F*=A         @ F='​(y2-y1)*(X-x1)'​     :F*=A         @ F='​(y2-y1)*(X-x1)'​
     :B-=F         @ B='​(Y-y1)*(x2-x1)-(y2-y1)*(X-x1)'​     :B-=F         @ B='​(Y-y1)*(x2-x1)-(y2-y1)*(X-x1)'​
-    :PUSH.B.#1    ​@ Push result on the stack+    :P=         @ Push result on the stack
   »   »
 » »
 </​code> ​ </​code> ​
  • manual/chapter5/asm.1575417037.txt.gz
  • Last modified: 2019/12/03 15:50
  • by claudio