Add v1 of var'aq interpereter

This commit is contained in:
zongor 2022-09-03 23:15:35 -04:00
parent c18e84e992
commit ef1d37cdfc
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bin/*

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{
// Use IntelliSense to learn about possible attributes.
// Hover to view descriptions of existing attributes.
// For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387
"version": "0.2.0",
"configurations": [
{
"name": "Launch Package",
"type": "go",
"request": "launch",
"mode": "auto",
"program": "main.go",
"args": ["examples/test.vqe"]
},
]
}

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MIT License MIT License
Copyright (c) <year> <copyright holders> Copyright (c) 2022 Zongor
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

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# varaq-interpreter-go # var'aq programming language
An implementation of the var'aq programming language in golang This is an implementation of the [var'aq programming language](https://www.oocities.org/connorbd/varaq/index.html) created by Brian Connors, with some help from Chris Pressey and Mark Shoulson.
It follows the spec for the [original `var'aq` language](https://www.oocities.org/connorbd/varaq/varaqspec.html).
This interpreter accepts both English and Klingon commands.
I have created an [updated spec](./SPEC.md) that describes this implementation of the language without the flavortext or addendums of the original.
Also included are some example programs written in the Klingon version and English version of `var'aq`.
This is a fan made project not connected with the Star Trek people (i.e. Paramount/CBS).

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_var'aq_ Specification
==================================
For better flavor text please read the [Original `var'aq` spec](https://www.oocities.org/connorbd/varaq/varaqspec.html) the following is a trimmed down version of the spec with a couple of fixes and addendums to how this implementation of the language works.
## 1 Language Overview
_var'aq_ is a stack-based, RPN programming language with points of similarity to Lisp, Forth, and PostScript. It is more of a functional language than an imperative (Algol-like) language; most operations are dependent on the stack and bypass the local variable store altogether.
### 1.2 Filetypes
* `.vq -- application/varaq` -- a standard _var'aq_ source file
* `.vqe -- application/varaq-engl` -- an English-keyword _var'aq_ source file
## 2 Language Basics
This section describes the fundamental _var'aq_ language constructs and data types.
### 2.1 Stack Operations
These operations directly manipulate the _var'aq_ operand stack. The operand stack can hold any of four kinds of data: numbers (real or integer), strings, functions, or arrays. It is best described as "translucent", similar to the transparent stack of Forth or PostScript but somewhat more restricted. The internal data representation of the stack is not available to the programmer.
#### 2.1.1 pop/woD
_obj `woD` -_
Pops and discards the top item on the stack. The literal meaning is _discard_.
Errors: stackUnderflow
#### 2.1.2 dup/latlh
_obj `latlh` obj obj_
Duplicates the top object on the stack.
Errors: stackUnderflow
#### 2.1.3 exch/tam
_obj1 obj2 `tam` obj2 obj1_
Inverts the order of the top two objects on the stack.
Errors: stackUnderflow
#### 2.1.4 clear/chImmoH
_... obj `chIm` -_
Empties the stack.
Errors: none
#### 2.1.5 remember/qaw
_\- `qaw` flag_
Puts a flag (like PostScript's `mark`) on the stack. The internal representation of the flag is not available to the programmer.
Errors: none
#### 2.1.6 forget/qawHa'
_... flag ... `qawHa'` ..._
Clears the stack down to the flag and pops the flag. If there is no flag present, the stack is emptied completely.
Errors: none
#### 2.1.7 dump/Hotlh (lit. scan)
_... `Hotlh` ..._
Prints the contents of the operand stack to STDOUT without changing them. _Note_: the _Hotlh_ operator is a debugging operator and is not intended for use in programs; it is merely documented here because it might be useful to a _var'aq_ developer. In particular, the output format of this operator is implementation-defined and will not be specified in this document. _Hotlh_ may be redefined to take such arguments as the implementor feels appropriate.
Errors: implementation-defined.
#### 2.1.8 disinter
Returns the value just above the top mark on the stack without disturbing the stack above it.
### 2.2 Data/Code Operations
_var'aq_, like many similar languages, does not distinguish between code and data. These operations include operators to associate names with objects and executable procedures, as well as operators to define and manage data structures. Note that variables and procedures live in a common namespace, since the act of pushing the content of a variable is essentially the same as executing the variable's name.
#### 2.2.1 ~ (quote/lI'moH)
_\- `~` obj obj_
The ~ operator is a special form, as it is not a postfix operator. When the interpreter encounters a ~, it pushes the next token on the stack as is regardless of whether it is a defined name. (Attempting to push an undefined name without a ~ will generate an undefinedName error.)
The literal meaning of this operator's name is "make useful". Errors: none
#### 2.2.2 {
Begins the creation of an anonymous procedure. The process is implementation-dependent.
#### 2.2.3 }
_\- `}` proc_
Completes procedure construction and pushes a reference to the completed procedure on the stack. Does not execute the procedure.
Errors: noDefinedProc
#### 2.2.4 name/pong
_obj id `pong` -_
Associates _obj_ with _id_ and places it in the system lookup space. Conventionally used to associate new operator names with procedure objects.
Example: _~ add3 { boq boq cha' } pong_
Pushes the name _add3_ and a procedure object on the stack, then binds the name to the procedure.
Errors: stackUnderflow, noDefinedProc
#### 2.2.5 set/cher
_obj id `cher` -_
Reassigns the value of a value already in the system lookup space. Used primarily for variable assignments.
Errors: stackUnderflow, noSuchName
#### 2.2.6 (\* ... \*) (comment)
Marks a comment in a program. All such comments are treated as single tokens and ignored.
#### 2.2.7 //_name_
Causes the interpreter to import a file with the name _name_.vq(e) and execute it as if it is part of the currently executing program. Essentially equivalent to `#include` in C.
An example can be found at the top of the [test.vqe](./examples/test.vqe) example.
`Note:` you must use either absolute paths or paths relitive to the location of the interpeter
### 2.3 Control Flow
_var'aq_ supports a small but sufficient supply of conditional and iterative operators.
#### 2.3.1 ifyes/HIja'chugh
_bool proc `HIja'chugh` -_
Pops the proc object off the stack, then evaluates the boolean. If it's true, the proc object is evaluated; otherwise, it's thrown out.
Errors: stackUnderflow, noDefinedProc
#### 2.3.2 ifno/ghobe'chugh
_bool proc `ghobe'chugh` -_
Similar to _HIja'chugh_ above, but executes proc only if bool is false.
Errors: stackUnderFlow, noDefinedProc
#### 2.3.3 choose/wIv
_bool `wIv` bool bool_
Duplicates a boolean value on top of the stack. Allows paired HI'ja'chugh/ghobe'chugh clauses.
`Note:` To the untrained eye, it may seem as though wIv and latlh are identical. This is true in the reference implementation, but may not be in any version that actually does some level of type checking. This bit of syntactic sugar should never be relied upon; always use wIv in this situation.
#### 2.3.4 eval/chov
_proc `chov` -_
Pops a proc object off the stack and executes it.
Errors: stackUnderflow, noDefinedProc
#### 2.3.5 escape/nargh
_bool `nargh` -_
Exit the current procedure. Useful for exit conditions on loops. Will terminate the current session if used top-level.
#### 2.3.6 repeat/vangqa'
_val proc `vangqa'` -_
Pops val and proc off the stack and executes proc val times.
### 2.4 List Operations
_var'aq_ supports a series of operators for management of lists (_ghomHom_, which seems to mean something like "cluster"). These primitives are the language's primary way of managing aggregate objects and work much like similar operators in LISP; a more sophisticated paradigm, such as OO extensions or the like, can be built with these operators.
Note that "objects" as they stand in _var'aq_ are largely singletons as in JavaScript; there is no inherent concept of object-orientation or anything like it in standard _var'aq_.
#### 2.4.1 (
Begins a list definition.
#### 2.4.2 )
_( item1 item2 ... `)` list_
Creates a list and pushes it onto the stack.
#### 2.4.3 split/SIj
_list `SIj` item1 list_
Pops a list off the stack and returns the first item and the rest of the list.
#### 2.4.4 cons/muv
_list item1 ... `muv` list_
Takes an object and adds it to the head of a list. Equivalent to the LISP `cons` operator.
#### 2.4.5 shatter/ghorqu'
_list `ghorqu'` item1 item2 ..._
Reduces a list to its component elements and pushes them on the stack in order.
`Note:` The precise meaning of the construction _ghorqu'_ is a bit obscure; the rendering _shatter_ is idiomatic and may derive from a nonstandard dialect. Standard Klingon would generally prefer _jor_, meaning _explode_.)
#### 2.4.6 empty?/chIm'a'
_list `chIm'a'` bool_
Examines a list on the stack and returns 1 if its value is null (_pagh_), a 0 if it contains anything.
#### 2.4.7 consume
_obj1 obj2 ... mark `consume` list_
Pops all objects on the stack down to _mark_ and returns them in a list.
`Note:` some implementations also have an operator known as bite/_chop_, equivalent to the Lisp _cdr_. This is not required in any standard _var'aq_ implementation and can easily be rendered by the function
```
~ chop { SIj woD } pong
```
### 2.5 String Operators
_tlheghjangwI'mey_
#### 2.5.1 strtie/tlheghrar
_str1 str2 `tlheghrar` str3_
Concatenates the top two strings on the stack into one.
#### 2.5.2 compose/naQmoH
_mark str1 str2 ... strn `naQmoH` strn'_
Pops objects (executing proc objects if necessary) off the stack until a marker (placed by `qaw`) is hit and combines them into one string.
#### 2.5.3 streq?/tlheghrap'a'
_str1 str2 `tlheghrap'a'` bool_
Pops the top two strings on the stack, compares them, and returns 1 if identical, 0 if not.
#### 2.5.4 strcut/tlheghpe'
_str startval endval `tlheghpe'` substr_
Pops two values and a string and returns the section of the string between character _startval_ and character _endval_.
#### 2.5.5 strmeasure/tlheghjuv
_str `tlheghjuv` val_
Pops a string off the stack and returns its length in characters.
#### 2.5.6 explode/jor
_str `jor` list_
Separates individual "words" in a string by whitespace.
## 3 Mathematical Operators
_mI'jangwI'mey_
### 3.1 Arithmetic Operations
_toghwI'mey_
Arithmetic operators usually work with real numbers unless otherwise stated. The number operators (sec 3.3) can convert them to integers if necessary.
#### 3.1.1 add/boq
_a b `boq` sum_
Pops the top two values on the stack and replaces them with their sum.
#### 3.1.2 sub/boqHa'
_a b `boqHa'` difference_
Pops the top two values on the stack and replaces them with a - b.
#### 3.1.3 mul/boq'egh
_a b `boq'egh` product_
Pops the top two values on the stack and replaces them with their product.
#### 3.1.4 div/boqHa''egh
_a b `wav` quotient_
Pops the top two values on the stack and replaces them with a/b.
#### 3.1.5 idiv/HabboqHa''egh (lit. full-divide)
_a b `HabboqHa''egh` quotient_
Pops the top two values on the stack and replaces them with the results of an integer division operation.
#### 3.1.6 mod/chuv (lit. leftover)
_a b `chuv` remainder_
Pops the top two values and returns the remainder of a mod b.
#### 3.1.7 pow/boqHa'qa' (lit. remultiply)
_base exp `boqHa'qa'` real_
Pops the top two values and returns base^exp.
#### 3.1.8 sqrt/loS'ar (lit. fourth-howmuch)
_angle `loS'ar` real_
Returns the square root of val.
#### 3.1.9 add1/wa'boq
_a `wa'boq` a+1_
Increments the top value on the stack by one.
#### 3.1.10 sub1/wa'boqHa'
_a `wa'boqHa'` a-1_
Decrements the top value on the stack by one.
### 3.2 Trigonometric and Logarithmic Operators
_SIHpojjangwI'mey 'ej ghurjangwI'mey_
#### 3.2.1 sin/yu'egh (lit. wave)
_angle `yu'egh` real_
Returns the sine of val.
#### 3.2.2 cos/yu'eghHa' (lit. counter-wave)
_angle `yu'eghHa'` cos(val)_
Returns the cosine of val.
#### 3.2.3 tan/qojmI' (lit. cliffnumber)
_angle `qojmI'` tan(val)_
Returns the tangent of val.
#### 3.2.4 atan/qojHa' (lit. anticliff)
_num den `qojHa'` angle_
Returns the arctangent of _num / den_.
#### 3.2.5 ln/ghurtaH
_num `ghurtaH` real_
Returns the natural log of _num_.
#### 3.2.6 log/maHghurtaH
_num `maHghurtaH` real_
Returns the base 10 log of _num_.
#### 3.2.7 log3/wejghurtaH
_num `wejghurtaH` real_
Returns the base 3 log of _num_.
### 3.3 Numerical Operators and Constants
This section describes operators that operate on numbers themselves, as well as common system-level constants.
#### 3.3.1 clip/poD
_real `poD` int_
Removes the fractional portion of a real number (equivalent to floor(real).
#### 3.3.2 smooth/Hab (lit. smooth)
_real `Hab` int_
Rounds a number to the nearest integer.
#### 3.3.3 howmuch/'ar
_num `'ar` num2_
Returns the absolute value of _num_.
#### 3.3.4 setrand/mIScher
_num `mIScher` -_
Sets the random number generator seed value to _num_. Not common, since most _var'aq_ implementations have a rather arcane formula for picking a pseudo-random seed value.
#### 3.3.5 rand/mIS
_num `mIS` real_
Returns a random real number in the range 0 to _num_. If there is no meaningful input on the stack,
#### 3.3.6 pi/HeHmI'
Pushes the value pi (~3.14159...) onto the stack. The Klingon name literally means "edge-number".
#### 3.3.7 e/ghurmI'
Pushes the value e onto the stack. The Klingon name literally means "growth-number".
#### 3.3.8 int?/HabmI''a'
_val `HabmI''a'` bool_ Pops the top value on the stack and returns 1 if it is an integer, 0 if not.
#### 3.3.9 number?/mI''a'
_val `mI''a'` bool_
Pops the top value off the stack and returns 1 if it's a number, 0 if it's something else.
#### 3.3.10 numberize/mI'moH
_str `mi'moH` val_
Pops a string off the stack, converts it into a numerical value, and returns it.
#### 3.4 Bitwise operators
Though _var'aq_ makes no clear distinction between integers and reals, it is nevertheless useful to be able to manipulate a number on the bit level. The following operators assume that their operands will always be treated as integers; effects on floating-point values are undefined, and may be disallowed at the implementor's discretion.
#### 3.4.1 isolate/mobmoH
_a b `mobmoH` result_
Performs a bitwise AND on a and b.
#### 3.4.2 mix/DuD
_a b `DuD` result_
Performs a bitwise OR on a and b.
#### 3.4.3 contradict/tlhoch
_a b `tlhoch` result_
Performs a bitwise XOR on a and b.
#### 3.4.4 compl/Qo'moH
_val `Qo'moH` ~val_
Returns the one's-complement of val. `Note:` The literal meaning is something like "make it say no".
#### 3.4.5 shiftright/nIHghoS
_a b `nIHghoS` result_
Shifts a right b places, preserving the sign of the value.
#### 3.4.6 shiftleft/poSghoS
_a b `poSghoS` result_
Shifts a left b places.
### 4 Relational and Logical Operators
#### 4.1 Relational Operators and Predicate Functions
_yu'jangwI'mey_
#### 4.1.1 gt?/law''a'
_a b `law''a'` bool_
Pops a and b off the stack, compares them, and returns a boolean value of true if a is larger.
#### 4.1.2 lt?/puS'a'
_a b `puS'a'` bool_
Pops a and b off the stack, compares them, and returns a boolean value of true if a is smaller.
#### 4.1.3 eq?/rap'a'
_a b `rap'a'` bool_
Pops a and b off the stack, compares them, and returns a boolean value of true if a is the same as b.
#### 4.1.4 ge?/law'rap'a'
_a b `law'rap'a'` bool_
Pops a and b off the stack, compares them, and returns a boolean value of true if a is greater than or equal to b.
#### 4.1.5 le?/puSrap'a'
_a b `puSrap'a'` bool_
Pops a and b off the stack, compares them, and returns a boolean value of true if a is less than or equal to b.
#### 4.1.6 ne?/rapbe'a'
_a b `rapbe'a'` bool_
Pops a and b off the stack, compares them, and returns a boolean value of true if a is not equal to b.
#### 4.1.7 null?/pagh'a'
_obj `pagh'a'` bool_
Examines the top object on the stack and returns a 1 if null, a 0 if not.
#### 4.1.8 negative?/taH'a'
_val `taH'a'` bool_
Pops the top number on the stack and returns a 1 if less than 0, a 0 if not.
#### 4.2 Logical Operators
_vItjangwI'mey_
Note that these are strictly logical operators, not bitwise.
#### 4.2.1 and/je
_a b `je` bool_
Evaluates b and a and returns a 1 if both are true, a 0 if not.
#### 4.2.2 or/joq
_a b `joq` bool_
Evaluates b and a and returns a 1 if one or both are true, a 0 if both are false.
#### 4.2.3 xor/ghap
_a b `ghap` bool_
Evaluates b and a and returns a 1 if only one is true, a 0 otherwise.
#### 4.2.4 not/ghobe'
_val `ghobe'` bool_
Evaluates val and returns 1 if true, 0 if not.
### 5 Input/Output and File Operators
The _var'aq_ Level 0 specification essentially handles console I/O and files in a manner very similar to the UNIX model.
#### 5.1 Console I/O
The console I/O model at this point is very simple: write, read, error.
#### 5.1.1 disp/cha'
_obj `cha'` -_
Pops the top object on the stack and writes it to STDOUT. Note that certain types of objects will generate meaningless output, particularly anonymous proc objects.
#### 5.1.2 listen/'Ij
_\- `'Ij` str_
Reads one line of input and stores it as a string on top of the stack.
#### 5.1.3 complain/bep
_str `bep` -_
Pops _str_ and prints it to stderr.
### 6 System Variables
_patSarwI'mey_
This section describes _var'aq_ keywords that do no more than put set values on the stack. Many of them are not precisely constants but more like environment variables.
#### 6.1 I/O-related Constants
#### 6.1.1 newline/chu'DonwI'
Prints a carriage return.
#### 6.1.2 tab/chu'tut
Advances by one tab stop.
#### 6.2 Environment Constants
#### 6.2.1 whereami/nuqDaq\_jIH
Returns the IP address of the machine the interpreter is running on.
#### 6.2.2 version/pongmI'
Returns the current interpreter version number. The reference interpreter returns a date stamp.
#### 6.2.3 argv/taghDe'
Pushes the command line arguments on the stack as a list.

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GOOS=plan9 GOARCH=386 go build -o bin/varaq-plan9-386 main.go
GOOS=plan9 GOARCH=amd64 go build -o bin/varaq-plan9-amd64 main.go
GOOS=plan9 GOARCH=arm go build -o bin/varaq-plan9-arm main.go
GOOS=aix GOARCH=ppc64 go build -o bin/varaq-aix-ppc64 main.go
GOOS=darwin GOARCH=amd64 go build -o bin/varaq-darwin-amd64 main.go
GOOS=darwin GOARCH=arm64 go build -o bin/varaq-darwin-arm64 main.go
GOOS=dragonfly GOARCH=amd64 go build -o bin/varaq-dragonfly-amd64 main.go
GOOS=freebsd GOARCH=386 go build -o bin/varaq-freebsd-386 main.go
GOOS=freebsd GOARCH=amd64 go build -o bin/varaq-freebsd-amd64 main.go
GOOS=freebsd GOARCH=arm go build -o bin/varaq-freebsd-arm main.go
GOOS=illumos GOARCH=amd64 go build -o bin/varaq-illumos-amd64 main.go
GOOS=js GOARCH=wasm go build -o bin/varaq.wasm main.go
GOOS=linux GOARCH=386 go build -o bin/varaq-linux-386 main.go
GOOS=linux GOARCH=amd64 go build -o bin/varaq-linux-amd64 main.go
GOOS=linux GOARCH=arm go build -o bin/varaq-linux-arm main.go
GOOS=linux GOARCH=arm64 go build -o bin/varaq-linux-arm64 main.go
GOOS=linux GOARCH=loong64 go build -o bin/varaq-linux-loong64 main.go
GOOS=linux GOARCH=mips go build -o bin/varaq-linux-mips main.go
GOOS=linux GOARCH=mipsle go build -o bin/varaq-linux-mipsle main.go
GOOS=linux GOARCH=mips64 go build -o bin/varaq-linux-mips64 main.go
GOOS=linux GOARCH=mips64le go build -o bin/varaq-linux-mips64le main.go
GOOS=linux GOARCH=ppc64 go build -o bin/varaq-linux-ppc64 main.go
GOOS=linux GOARCH=ppc64le go build -o bin/varaq-linux-ppc64le main.go
GOOS=linux GOARCH=riscv64 go build -o bin/varaq-linux-riscv64 main.go
GOOS=linux GOARCH=s390x go build -o bin/varaq-linux-s390x main.go
GOOS=netbsd GOARCH=386 go build -o bin/varaq-netbsd-386 main.go
GOOS=netbsd GOARCH=amd64 go build -o bin/varaq-netbsd-amd64 main.go
GOOS=netbsd GOARCH=arm go build -o bin/varaq-netbsd-arm main.go
GOOS=openbsd GOARCH=386 go build -o bin/varaq-openbsd-386 main.go
GOOS=openbsd GOARCH=amd64 go build -o bin/varaq-openbsd-amd64 main.go
GOOS=openbsd GOARCH=arm go build -o bin/varaq-openbsd-arm main.go
GOOS=openbsd GOARCH=arm64 go build -o bin/varaq-openbsd-arm64 main.go
GOOS=solaris GOARCH=amd64 go build -o bin/varaq-solaris-amd64 main.go
GOOS=windows GOARCH=386 go build -o bin/varaq-windows-386 main.go
GOOS=windows GOARCH=amd64 go build -o bin/varaq-windows-amd64 main.go
GOOS=windows GOARCH=arm go build -o bin/varaq-windows-arm main.go
GOOS=windows GOARCH=arm64 go build -o bin/varaq-windows-arm64 main.go

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1 2 3 add disp

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(* QopghotI' mughwI' var'aq *)
0 ~ toD cher
~ QopghotI'mughwI' {
">> " cha'
'Ij ~ Doch cher
Doch 0 1 tlheghpe' ~ Doch cher
Doch "i" tlheghrap'a' { toD 1 boq ~ toD cher } HIja'chugh
Doch "d" tlheghrap'a' { toD 1 boqHa' ~ toD cher } HIja'chugh
Doch "o" tlheghrap'a' { toD cha' chu'DonwI'} HIja'chugh
Doch "s" tlheghrap'a' { toD toD boq'egh ~ toD cher } HIja'chugh
toD -1 rap'a' { 0 ~ toD cher } HIja'chugh
toD 256 rap'a' { 0 ~ toD cher } HIja'chugh
QopghotI'mughwI'
} pong
QopghotI'mughwI'

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"nuqneH 'u'?" cha'

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"test" ~ breakfast set
"coffee" ~ beverage set
"croissants with " beverage strtie ~ breakfast set
breakfast disp

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(* this is a comment *)
// examples/setting.vqe
5 ~ count set
~ test {
0 ~ num set
time
3.1415962 e sub pi dup mul le?
exch
disp
disp
"Enter name:" disp
"hello" " " strtie
listen strtie
disp
(1 2 3 4 "test this" pi(*test*))
num 1 add ~ num set
num disp
} name
test
whereami
version
time
disp

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module varaq
go 1.18

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package main
import (
"bufio"
"fmt"
"io/ioutil"
"os"
"varaq/varaq"
)
func main() {
argsCount := len(os.Args[1:])
if argsCount >= 1 {
runFile(os.Args[1])
} else {
repl()
}
os.Exit(0)
}
func repl() {
scanner := bufio.NewScanner(os.Stdin)
for scanner.Scan() {
fmt.Print("> ")
line := scanner.Text()
if len(line) == 0 {
return
}
err := interpret(line)
if err != nil {
fmt.Printf("%v\n", err)
}
}
}
func runFile(path string) {
code, err := ioutil.ReadFile(path) // the file is inside the local directory
if err != nil {
fmt.Printf("%v\n", err)
os.Exit(65)
}
err = interpret(string(code))
if err != nil {
fmt.Printf("%v\n", err)
os.Exit(65)
}
}
func interpret(src string) error {
tokens, err := varaq.Tokenize(src)
if err != nil {
return fmt.Errorf("%v", err)
}
code := varaq.Parse(tokens)
err = varaq.Interpret(code, os.Args[1:])
if err != nil {
fmt.Printf("%v\n", err)
return err
}
return nil
}

1225
varaq/interpreter.go Executable file

File diff suppressed because it is too large Load Diff

81
varaq/parser.go Executable file
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package varaq
import (
"fmt"
"strings"
)
type Expr struct {
Tok TokenType
Exprs []Expr
Value any
Count int
}
type Parser struct {
tokens []Token
pos int
end int
}
func (p Parser) curr() Token {
return p.tokens[p.pos]
}
func parse(p Parser, stop TokenType, tt TokenType) (Expr, int) {
code := Expr{tt, make([]Expr, 0), nil, 0}
for {
if p.pos < 0 || p.pos > p.end-1 {
break
}
if p.curr().Toktype == stop {
p.pos += 1
break
}
if p.curr().Toktype == LEFTBRACE {
p.pos += 1
ex, pos := parse(p, RIGHTBRACE, FUNCTION)
p.pos = pos
code.Exprs = append(code.Exprs, ex)
code.Count += 1
} else if p.curr().Toktype == LEFTPAREN {
p.pos += 1
ex, pos := parse(p, RIGHTPAREN, LIST)
p.pos = pos
code.Exprs = append(code.Exprs, ex)
code.Count += 1
} else {
code.Exprs = append(code.Exprs, Expr{p.curr().Toktype, nil, p.curr().Literal, 0})
p.pos += 1
}
}
return code, p.pos
}
func Parse(tokens []Token) Expr {
parser := Parser{tokens, 0, len(tokens)}
ex, _ := parse(parser, EOF, SCRIPT)
return ex
}
func PrintDump(code Expr, depth int) {
for _, c := range code.Exprs {
if c.Tok == FUNCTION {
depth += 1
fmt.Printf("%s %s\n", strings.Repeat("-", depth), c.Tok)
PrintDump(c, depth)
depth -= 1
} else if c.Tok == LIST {
depth += 1
fmt.Printf("%s %s\n", strings.Repeat("-", depth), c.Tok)
PrintDump(c, depth)
depth -= 1
} else {
fmt.Printf("%s %s: %v\n", strings.Repeat("-", depth), c.Tok, c.Value)
}
}
}

425
varaq/scanner.go Executable file
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package varaq
import (
"bufio"
"fmt"
"io/ioutil"
"strconv"
"strings"
)
var keywords = map[string]TokenType{
"false": FALSE,
"true": TRUE,
"pi": PI,
"e": E,
"pop": POP,
"dup": DUP,
"exch": EXCH,
"clear": CLEAR,
"remember": REMEMBER,
"forget": FORGET,
"dump": DUMP,
"name": NAME,
"set": SET,
"ifyes": IFYES,
"ifno": IFNO,
"choose": CHOOSE,
"eval": EVAL,
"escape": ESCAPE,
"repeat": REPEAT,
"split": SPLIT,
"cons": CONS,
"shatter": SHATTER,
"empty?": EMPTY,
"compose": COMPOSE,
"streq?": STREQ,
"strcut": STRCUT,
"strmeasure": STRMEASURE,
"strtie": STRTIE,
"explode": EXPLODE,
"add": ADD,
"sub": SUB,
"mul": MUL,
"div": DIV,
"idiv": IDIV,
"mod": MOD,
"pow": POW,
"sqrt": SQRT,
"add1": ADD1,
"sub1": SUB1,
"sin": SIN,
"cos": COS,
"tan": TAN,
"atan": ATAN,
"ln": LN,
"log": LOG,
"log3": LOG3,
"clip": CLIP,
"smooth": SMOOTH,
"howmuch": HOWMUCH,
"setrand": SETRAND,
"rand": RAND,
"numberize": NUMBERIZE,
"isolate": ISOLATE,
"mix": MIX,
"contradict": CONTRADICT,
"compl": COMPL,
"shiftright": SHIFTRIGHT,
"shiftleft": SHIFTLEFT,
"gt?": GT,
"lt?": LT,
"eq?": EQ,
"ge?": GE,
"le?": LE,
"ne?": NE,
"null": NULL,
"null?": ISNULL,
"int?": ISINT,
"number?": ISNUMBER,
"negative?": NEGATIVE,
"and": AND,
"or": OR,
"xor": XOR,
"disp": DISP,
"listen": LISTEN,
"complain": COMPLAIN,
"time": TIME,
"gc": GARBAGECOLLECT,
"newline": NEWLINE,
"tab": TAB,
"whereami": WHEREAMI,
"version": VERSION,
"argv": ARGV,
"chu'tut": TAB,
"chu'DonwI'": NEWLINE,
"bep": COMPLAIN,
"chImmoH": CLEAR,
"chIm'a'": EMPTY,
"cher": SET,
"boq": ADD,
"chov": EVAL,
"chuv": MOD,
"cha'": DISP,
"DuD": MIX,
"ghap": XOR,
"ghurmI'": E,
"ghurtaH": LN,
"ghorqu'": SHATTER,
"ghobe'chugh": IFNO,
"HIja'chugh": IFYES,
"Hotlh": DUMP,
"HeHmI'": PI,
"Habwav": IDIV,
"je": AND,
"jor": EXPLODE,
"joq": OR,
"loS'ar": SQRT,
"latlh": DUP,
"boq'egh": MUL,
"boqHa'qa'": POW,
"law''a'": GT,
"law'rap'a'": GE,
"maHghurtaH": LOG,
"mi'moH": NUMBERIZE,
"muv": CONS,
"mobmoH": ISOLATE,
"mIScher": SETRAND,
"mIS": RAND,
"nIHghoS": SHIFTRIGHT,
"nargh": ESCAPE,
"naQmoH": COMPOSE,
"pagh'a'": NULL,
"pong": NAME,
"poSghoS": SHIFTLEFT,
"puS'a'": LT,
"puSrap'a'": LE,
"qaw": REMEMBER,
"qawHa'": FORGET,
"qojmI'": TAN,
"qojHa'": ATAN,
"Qo'moH": COMPL,
"rap'a'": EQ,
"rapbe'a'": NE,
"tlheghrar": STRTIE,
"poD": CLIP,
"Hab": SMOOTH,
"'ar": HOWMUCH,
"SIj": SPLIT,
"boqHa'": SUB,
"tam": EXCH,
"taH'a'": NEGATIVE,
"tlhoch": CONTRADICT,
"tlheghpe'": STRCUT,
"tlheghjuv": STRMEASURE,
"tlheghrap'a'": STREQ,
"vangqa'": REPEAT,
"wIv": CHOOSE,
"woD": POP,
"boqHa''egh": DIV,
"wa'boqHa'": SUB1,
"wa'boq": ADD1,
"wejghurtaH": LOG3,
"'Ij": LISTEN,
"poH": TIME,
// Wrong word in original spec, old one meant "waving hands or flapping"
// Also fixes the conflicting joq issue meaning sin or 'or'
"yu'eghHa'": COS,
"yu'egh": SIN,
// This one has a special case too as it is the same as the '~' operator
"lI'moH": TILDE,
"woDHa'": GARBAGECOLLECT,
"taghDe'": ARGV,
"pongmI'": VERSION,
"nuqDaq_jIH": WHEREAMI,
}
func isDigit(s string) bool {
return (s >= "0" && s <= "9") || s == "-"
}
func isAlpha(s string) bool {
return (s >= "a" && s <= "z") ||
(s >= "A" && s <= "Z") ||
s == "_" || s == "'" || s == "?"
}
func isSpecialChar(s string) bool {
return s == "(" || s == ")" || s == "{" || s == "}"
}
func isAlphaNumeric(s string) bool {
return isAlpha(s) || isDigit(s)
}
func isEOF(scanner *bufio.Scanner) bool {
return scanner.Text() == ""
}
func peek(scanner *bufio.Scanner) string {
return scanner.Text()
}
func next(scanner *bufio.Scanner) string {
scanner.Scan()
return scanner.Text()
}
func match(scanner *bufio.Scanner, expected string) bool {
if isEOF(scanner) {
return false
}
if scanner.Text() != expected {
return false
}
return true
}
func str(scanner *bufio.Scanner, tokens []Token, line_no int) ([]Token, int, error) {
value := ""
for {
char := next(scanner)
if char == "\"" || isEOF(scanner) {
break
}
if char == "\n" {
line_no++
}
value += char
}
if isEOF(scanner) {
return tokens, line_no, fmt.Errorf("unterminated string")
}
return append(tokens, Token{STRING, value, value, line_no}), line_no, nil
}
func num(scanner *bufio.Scanner, tokens []Token, line_no int) ([]Token, int, error) {
value := peek(scanner)
no_advance := false
for {
digit := next(scanner)
if !isDigit(digit) {
break
}
value += digit
}
if peek(scanner) == "." && isDigit(next(scanner)) {
value += "."
for {
digit := peek(scanner)
if !isDigit(digit) {
break
}
value += digit
next(scanner)
}
} else {
no_advance = true
}
num, err := strconv.ParseFloat(value, 64)
if err != nil {
return tokens, line_no, fmt.Errorf("string to rational error")
}
if no_advance {
tokens = append(tokens, Token{NUMBER, value, num, line_no})
return scanToken(scanner, tokens, line_no, true)
}
return append(tokens, Token{NUMBER, value, num, line_no}), line_no, nil
}
func identifier(scanner *bufio.Scanner, tokens []Token, line_no int) ([]Token, int, error) {
value := peek(scanner)
no_advance := false
for {
chr := next(scanner)
if !isAlphaNumeric(chr) {
if isSpecialChar(chr) {
no_advance = true
}
break
}
value += chr
}
typ, prs := keywords[value]
if prs {
if no_advance { // TODO: ugly but golang wont let me do what I want
tokens = append(tokens, Token{typ, value, value, line_no})
return scanToken(scanner, tokens, line_no, true)
}
return append(tokens, Token{typ, value, value, line_no}), line_no, nil
}
if no_advance {
tokens = append(tokens, Token{IDENTIFIER, value, value, line_no})
return scanToken(scanner, tokens, line_no, true)
}
return append(tokens, Token{IDENTIFIER, value, value, line_no}), line_no, nil
}
func include(scanner *bufio.Scanner, tokens []Token, line_no int) ([]Token, int, error) {
value := ""
for {
char := next(scanner)
if char == "\n" || isEOF(scanner) {
break
}
if char != " " && char != "\r" && char != "\t" {
value += char
}
}
if isEOF(scanner) {
return tokens, line_no, fmt.Errorf("unterminated string")
}
code, err := ioutil.ReadFile(value) // the file is inside the local directory
if err != nil {
return nil, 0, err
}
toks, err := Tokenize(string(code))
if err != nil {
return nil, 0, err
}
// need to remove EOF from script import
n := len(toks) - 1
toks = toks[:n]
return append(tokens, toks...), line_no, nil
}
func scanToken(scanner *bufio.Scanner, tokens []Token, line_no int, no_advance bool) ([]Token, int, error) {
var c string
if no_advance {
c = peek(scanner)
} else {
c = next(scanner)
}
switch c {
case "(":
if next(scanner) == "*" {
for {
if next(scanner) == "*" {
if next(scanner) != ")" {
return tokens, line_no, fmt.Errorf("did not close comment at line number %d", line_no)
}
break
}
}
} else {
tokens = append(tokens, Token{LEFTPAREN, c, nil, line_no})
return scanToken(scanner, tokens, line_no, true)
}
case ")":
return append(tokens, Token{RIGHTPAREN, c, nil, line_no}), line_no, nil
case "{":
return append(tokens, Token{LEFTBRACE, c, nil, line_no}), line_no, nil
case "}":
return append(tokens, Token{RIGHTBRACE, c, nil, line_no}), line_no, nil
case "~":
return append(tokens, Token{TILDE, c, nil, line_no}), line_no, nil
case "/":
if match(scanner, "/") { // TODO: make this an import token
next(scanner)
return include(scanner, tokens, line_no)
} else {
return append(tokens, Token{SLASH, c, nil, line_no}), line_no, nil
}
case "*":
return append(tokens, Token{STAR, c, nil, line_no}), line_no, nil
case " ":
case "\r":
case "\t":
// Ignore whitespace.
break
case "\n":
line_no++
case "\"":
return str(scanner, tokens, line_no)
default:
if isDigit(peek(scanner)) {
return num(scanner, tokens, line_no)
} else if isAlpha(peek(scanner)) {
return identifier(scanner, tokens, line_no)
} else {
return tokens, line_no, fmt.Errorf("unixpected character %d", line_no)
}
}
return tokens, line_no, nil
}
func Tokenize(source string) ([]Token, error) {
var err error
line_no := 1
tokens := make([]Token, 0)
scanner := bufio.NewScanner(strings.NewReader(source))
scanner.Split(bufio.ScanBytes)
for {
tokens, line_no, err = scanToken(scanner, tokens, line_no, false)
if isEOF(scanner) {
break
}
if err != nil {
return tokens, err
}
}
tokens = append(tokens, Token{EOF, "", nil, line_no})
return tokens, nil
}

217
varaq/token.go Executable file
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@ -0,0 +1,217 @@
package varaq
type TokenType int64
const (
UNDEFINED TokenType = iota
IDENTIFIER
STRING
NUMBER
BOOLEAN
LIST
SCRIPT
FUNCTION
ERROR
LEFTPAREN
RIGHTPAREN
LEFTBRACE
RIGHTBRACE
TILDE
SLASH
STAR
FALSE
TRUE
PI
E
EOF
POP
DUP
EXCH
CLEAR
REMEMBER
FORGET
DUMP
NAME
SET
IFYES
IFNO
CHOOSE
EVAL
ESCAPE
REPEAT
SPLIT
CONS
SHATTER
EMPTY
COMPOSE
STREQ
STRCUT
STRMEASURE
STRTIE
EXPLODE
ADD
SUB
MUL
DIV
IDIV
MOD
POW
SQRT
ADD1
SUB1
SIN
COS
TAN
ATAN
LN
LOG
LOG3
CLIP
SMOOTH
HOWMUCH
SETRAND
RAND
NUMBERIZE
ISOLATE
MIX
CONTRADICT
COMPL
SHIFTRIGHT
SHIFTLEFT
GT
LT
EQ
GE
LE
NE
NULL
NEGATIVE
ISNULL
ISINT
ISNUMBER
AND
OR
XOR
DISP
LISTEN
COMPLAIN
NEWLINE
TAB
WHEREAMI
VERSION
ARGV
TIME
GARBAGECOLLECT
)
var tokens = [...]string{
UNDEFINED: "UNDEFINED",
IDENTIFIER: "IDENTIFIER",
STRING: "STRING",
NUMBER: "NUMBER",
LIST: "LIST",
ERROR: "ERROR",
SCRIPT: "SCRIPT",
FUNCTION: "FUNCTION",
LEFTPAREN: "LEFTPAREN",
RIGHTPAREN: "RIGHTPAREN",
LEFTBRACE: "LEFTBRACE",
RIGHTBRACE: "RIGHTBRACE",
TILDE: "TILDE",
SLASH: "SLASH",
STAR: "STAR",
FALSE: "FALSE",
TRUE: "TRUE",
PI: "PI",
E: "E",
EOF: "EOF",
POP: "POP",
DUP: "DUP",
EXCH: "EXCH",
CLEAR: "CLEAR",
REMEMBER: "REMEMBER",
FORGET: "FORGET",
DUMP: "DUMP",
NAME: "NAME",
SET: "SET",
IFYES: "YES?",
IFNO: "NO?",
CHOOSE: "CHOOSE",
EVAL: "EVAL",
ESCAPE: "ESCAPE",
REPEAT: "REPEAT",
SPLIT: "SPLIT",
CONS: "CONS",
SHATTER: "SHATTER",
EMPTY: "EMPTY?",
COMPOSE: "COMPOSE",
STREQ: "STREQ?",
STRCUT: "STRCUT",
STRMEASURE: "STRMEASURE",
STRTIE: "STRTIE",
EXPLODE: "EXPLODE",
ADD: "ADD",
SUB: "SUB",
MUL: "MUL",
DIV: "DIV",
IDIV: "IDIV",
MOD: "MOD",
POW: "POW",
SQRT: "SQRT",
ADD1: "ADD1",
SUB1: "SUB1",
SIN: "SIN",
COS: "COS",
TAN: "TAN",
ATAN: "ATAN",
LN: "LN",
LOG: "LOG",
LOG3: "LOG3",
CLIP: "CLIP",
SMOOTH: "SMOOTH",
HOWMUCH: "HOWMUCH?",
SETRAND: "SETRAND",
RAND: "RAND",
NUMBERIZE: "NUMBERIZE",
ISOLATE: "ISOLATE",
MIX: "MIX",
CONTRADICT: "CONTRADICT",
COMPL: "COMPL",
SHIFTRIGHT: "SHIFTRIGHT",
SHIFTLEFT: "SHIFTLEFT",
GT: "GT?",
LT: "LT?",
EQ: "EQ?",
GE: "GE?",
LE: "LE?",
NE: "NE?",
NULL: "NULL",
NEGATIVE: "NEGATIVE",
ISNULL: "NULL?",
ISINT: "INT?",
ISNUMBER: "NUMBER?",
AND: "AND",
OR: "OR",
XOR: "XOR",
DISP: "DISP",
LISTEN: "LISTEN",
COMPLAIN: "COMPLAIN",
NEWLINE: "NEWLINE",
TAB: "TAB",
WHEREAMI: "WHEREAMI",
VERSION: "VERSION",
ARGV: "ARGV",
TIME: "TIME",
GARBAGECOLLECT: "GARBAGECOLLECT",
}
func (me TokenType) String() string {
return tokens[me]
}
type Token struct {
Toktype TokenType
Lexeme string
Literal any
Line int
}