Binding Strength: Difference between revisions

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==Vector Notation==
==Vector Notation==


As the above table indicates, Vector Notation has a lower Binding Strength than both a right operand to its operator and either hyperand to its hyperator.  One consequence of this is a change introduced in NARS2000 Version 0.5.10 w.r.t. Numeric Strands. In particular,
As the above table indicates, Vector Notation has a lower Binding Strength than both a right operand to its operator and either hyperand to its hyperator.  One consequence of this is a change introduced in NARS2000 Version 0.5.10 w.r.t. Numeric Strands, in conjunction with the '''short scope''' of the three elements: Right Operands, Left Hyperands, and Right Hyperands.


* A dyadic operator written as <apll>&hellip; dop 1 2 3</apll> is interpreted as having a right operand ('''short''' right scope) of <apll>1</apll> and a right argument of <apll>2 3</apll>.
In particular,
* A hyperator written as either <apll>1 2 3 mhmo</apll> or <apll>1 2 3 mhdo &hellip;</apll> is interpreted as having a left hyperand ('''short''' left scope) of <apll>3</apll> and a left operand ('''long''' left scope) of <apll>1 2</apll>.
* A dyadic hyperator written as <apll>&hellip; dhmo 1 2 3</apll> is interpreted as having a right hyperand ('''short''' right scope) of <apll>1</apll> and a right argument of <apll>2 3</apll>.
* A dyadic hyperator written as <apll>&hellip; dhdo 1 2 3</apll> is interpreted as having a right hyperand ('''short''' right scope) of <apll>1</apll>, a right operand ('''short''' right scope) of <apll>2</apll>, and a right argument of <apll>3</apll>.


To reduce confusion, use parentheses such as <apll>(LO (LH dhdo 1) 2) 3</apll>.
* A dyadic operator written as &nbsp;&nbsp; <aplcl>&hellip; dop 1 2 3 4</aplcl> &nbsp;&nbsp; is interpreted as having a right operand ('''short''' right scope) of <aplcl>1</aplcl> and a right argument ('''long''' right scope) of <aplcl>2 3 4</aplcl>.
* A hyperator written as either &nbsp;&nbsp; <aplcl>1 2 3 4 mhmo</aplcl> &nbsp;&nbsp; or &nbsp;&nbsp; <aplcl>1 2 3 4 mhdo &hellip;</aplcl> &nbsp;&nbsp; is interpreted as having a left hyperand ('''short''' left scope) of <aplcl>4</aplcl> and a left operand ('''long''' left scope) of <aplcl>1 2 3</aplcl>.
* A dyadic hyperator written as &nbsp;&nbsp; <aplcl>&hellip; dhmo 1 2 3 4</aplcl> &nbsp;&nbsp; is interpreted as having a right hyperand ('''short''' right scope) of <aplcl>1</aplcl> and a right argument ('''long''' right scope) of <aplcl>2 3 4</aplcl>.
* A dyadic hyperator written as &nbsp;&nbsp; <aplcl>&hellip; dhdo 1 2 3 4</aplcl> &nbsp;&nbsp; is interpreted as having a right hyperand ('''short''' right scope) of <aplcl>1</aplcl>, a right operand ('''short''' right scope) of <aplcl>2</aplcl>, and a right argument ('''long''' right scope) of <aplcl>3 4</aplcl>.
 
To reduce confusion, use parentheses such as <aplcl>(LO (LH dhdo 1) 2) 3 4</aplcl>.


Abbreviations:
Abbreviations:

Revision as of 10:56, 22 March 2019

Table

The rules for how Variables, Functions, Operators, Hyperators and other syntactic elements combine are covered in the following table:

# Category Description Example
12: Brackets left Brackets to what is on their left "? […]"
11: Specification left Left arrow to what is on its left "? ←"
10: Right hyperand, right operand Dyadic hyperator to its right hyperand "HYP ?"
9: Right hyperand, left operand Dyadic hyperator to its right hyperand "HYP ?"
8: Left hyperand, right operand Hyperator to its left hyperand "? HYP"
7: Left hyperand, left operand Hyperator to its left hyperand "? HYP"
6: Right operand Dyadic operator to its right operand "DOP ?"
5: Vector notation Array to an array "A A"
4: Left operand Operator to its left operand "? MOP"
4: Train right Train to its right paren "… F)"
3: Train left Train to its left paren "(F …"
3: Left argument Function to its left argument "A F"
2: Right argument Function to its right argument "F A"
1: Specification right Left arrow to what is on its right "← ?"
0: Brackets right Brackets to what is on their right "[…] ?"

One way to look at these rules is that if you are given three names and/or symbols, you can always tell whether the middle object binds to the left or right object.

Vector Notation

As the above table indicates, Vector Notation has a lower Binding Strength than both a right operand to its operator and either hyperand to its hyperator. One consequence of this is a change introduced in NARS2000 Version 0.5.10 w.r.t. Numeric Strands, in conjunction with the short scope of the three elements: Right Operands, Left Hyperands, and Right Hyperands.

In particular,

  • A dyadic operator written as    <aplcl>… dop 1 2 3 4</aplcl>    is interpreted as having a right operand (short right scope) of <aplcl>1</aplcl> and a right argument (long right scope) of <aplcl>2 3 4</aplcl>.
  • A hyperator written as either    <aplcl>1 2 3 4 mhmo</aplcl>    or    <aplcl>1 2 3 4 mhdo …</aplcl>    is interpreted as having a left hyperand (short left scope) of <aplcl>4</aplcl> and a left operand (long left scope) of <aplcl>1 2 3</aplcl>.
  • A dyadic hyperator written as    <aplcl>… dhmo 1 2 3 4</aplcl>    is interpreted as having a right hyperand (short right scope) of <aplcl>1</aplcl> and a right argument (long right scope) of <aplcl>2 3 4</aplcl>.
  • A dyadic hyperator written as    <aplcl>… dhdo 1 2 3 4</aplcl>    is interpreted as having a right hyperand (short right scope) of <aplcl>1</aplcl>, a right operand (short right scope) of <aplcl>2</aplcl>, and a right argument (long right scope) of <aplcl>3 4</aplcl>.

To reduce confusion, use parentheses such as <aplcl>(LO (LH dhdo 1) 2) 3 4</aplcl>.

Abbreviations:

  • dop Dyadic Operator
  • mhmo Monadic Hyperand Monadic Operand Hyperator
  • mhdo Monadic Hyperand Dyadic Operand ...
  • dhmo Dyadic Hyperand Monadic Operand ...
  • dhdo Dyadic Hyperand Dyadic Operand ...
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