2018-03-02 07:44:13 +00:00
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# HCL - Hybrid Command Language
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## Language Syntax
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2018-04-07 15:21:05 +00:00
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A HCL program is composed of expressions.
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2018-03-02 07:44:13 +00:00
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2018-04-06 08:33:25 +00:00
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## Keywords
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2023-10-29 12:40:05 +00:00
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- nil
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- true
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- false
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2018-03-02 07:44:13 +00:00
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## Special Form Expression
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2023-10-29 12:40:05 +00:00
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- and
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- break
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- defclass
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- defun
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- do
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- elif
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- else
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2023-11-29 06:54:37 +00:00
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- fun
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2023-10-29 12:40:05 +00:00
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- if
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- lambda
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- or
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- return
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- set
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- until
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- while
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2023-11-28 11:47:23 +00:00
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### do
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```
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do;
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do 10;
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2023-11-29 06:54:37 +00:00
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do { | k | set k 20; printf "k=%d\n" k; };
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2023-11-28 11:47:23 +00:00
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```
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2023-10-29 12:40:05 +00:00
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## Literals
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- integer
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- character
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- small pointer
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- error
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- string
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- dictionary `#{ }`
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- array `[ ]`
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- byte array `#[ ]`
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- list `#( )`
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## Basic Expressions
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- function calls `( )`
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- message sends `(: )`
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- variable declaration `| |`
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- class variable delcarations `::: | |`
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2018-03-17 07:31:24 +00:00
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## Builtin functions
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2018-04-06 15:29:34 +00:00
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* not
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* _and
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* _or
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2018-03-17 07:31:24 +00:00
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* eqv?
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2018-04-06 15:29:34 +00:00
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* eql?
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* eqk?
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2018-04-06 15:29:34 +00:00
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* nqv?
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* nql?
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* nqk?
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* sprintf
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2018-03-17 07:31:24 +00:00
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* printf
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2018-04-07 15:09:02 +00:00
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* _+_
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* _-_
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* _*_
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2018-04-06 15:29:34 +00:00
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* mlt
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* /
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* quo
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* mod
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* sqrt
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* bit-and
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* bit-or
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* bit-xor
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* bit-not
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* bit-shift
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2018-04-07 15:09:02 +00:00
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## Defining a function
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2018-04-07 15:21:05 +00:00
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```
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2018-04-07 15:09:02 +00:00
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(defun function-name (arguments)
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| local variables |
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function body
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)
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2018-04-07 15:21:05 +00:00
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```
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2018-04-07 15:09:02 +00:00
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2018-04-07 15:21:05 +00:00
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```
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2018-04-07 15:09:02 +00:00
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(set function-name (lambda (arguments)
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| local variables |
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function body
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)
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2018-04-07 15:21:05 +00:00
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```
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2018-04-09 03:06:52 +00:00
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2023-10-29 12:40:05 +00:00
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## Class
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```
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(defclass T
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::: | A B C | ; class variables
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(printf "initializing....\n")
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(defun ::: dump()
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(printf "%d %d %d\n" A B C)
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)
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(set A 10)
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(set B 20)
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(set C 30)
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(printf "initialization done....\n")
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)
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(:T dump)
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```
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2021-05-11 15:04:53 +00:00
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## Redefining a primitive function
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```
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(set prim-plus +)
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(defun + (a b ...)
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(prim-plus a b 9999)
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)
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(printf "%d\n" (+ 10 20))
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```
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2018-04-09 03:06:52 +00:00
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2022-05-05 14:38:43 +00:00
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## Variadic arguments
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```
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(defun fn-y (t1 t2 va-ctx)
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| i |
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(set i 0)
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(while (< i (va-count va-ctx))
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(printf "fn-y=>Y-VA[%d]=>[%d]\n" i (va-get i va-ctx))
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(set i (+ i 1))
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)
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)
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(defun x(a b ... ::: x y z)
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|i|
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; (printf "VA_COUNT(x) = %d\n" (va-count))
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(set x "xxx")
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(set y "yyy")
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(set z "zzz")
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(set z (+ a b))
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(set i 0)
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(while (< i (va-count))
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(printf "VA[%d]=>[%d]\n" i (va-get i))
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(set i (+ i 1))
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)
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(fn-y "hello" "world" (va-context))
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(return)
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)
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(printf "--------------------------\n")
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(printf "[%O]\n" (x 10 20 30))
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(printf "--------------------------\n")
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(set q (set-r a b c (x 10 20 30 40 50)))
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(printf "--------------------------\n")
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```
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2018-04-09 03:06:52 +00:00
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## HCL Exchange Protocol
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The HCL library contains a simple server/client libraries that can exchange
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HCL scripts and results over network. The following describes the protocol
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briefly.
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### Request message
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TODO: fill here
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2022-07-31 13:17:44 +00:00
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.BEGIN
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.SCRIPT
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.END
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.EXIT
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.KILL-WORKER
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.SHOW-WORKERS
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You can send a single-line script with a .SCRIPT command.
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.SCRIPT (printf "hello, world\n")
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If the script is long and contains line-breaks, enclose multiple .SCRIPT commands
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with the .BEGIN and .END command.
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.BEGIN
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.SCRIPT (printf "hello ")
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.SCRIPT (printf "world\n")
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.END
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2018-04-09 03:06:52 +00:00
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### Reponse message
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There are two types of response messages.
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- Short-form response
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- Long-form response
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A short-form response is useful when you reply with a single unit of data.
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A long-form response is useful when the actual data to return is more complex.
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#### Short-form response
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A short-form response is composed of a status line. The status line may span
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across multiple line if the single response data item can span across multiple
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lines without ambiguity. A short-form response begins with a status word.
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The status word gets followed by an single data item.
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There are 2 status word defined.
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- .OK
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- .ERROR
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The data must begin on the same line as the status word and there should be
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as least 1 whitespace characters between the status word and the beginning of
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the data. The optional data must be processible as a single unit of data. The
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followings are accepted:
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* unquoted text line
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** The end of the data is denoted by a newline character. The newline
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character also terminates the status line.
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** Leading and trailing spaces must be trimmed off
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* quoted text
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** If the first meaningful character of the option data is a double quote,
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the option data ends when another ordinary double quote is encounted.
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** If a double quote is preceded by a backslash(\"), the double quote becomes
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part of the data and doesn't end the data.
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** Not only the double quote, any character character escaped by a preceding
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backslash is treated literally. (e.g. \\ -> a single back slash, \n -> n)
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** Trailing spaces after the ending quote must be ignored until a newline
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character is encounted. The newline character terminates the status line.
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Take note of the followings when parsing a short-form response message
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* Whitespace characters before the status word shall get ignored.
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See the following samples.
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.OK authentication success
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.ERROR double login attempt
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.OK "authentication\twas\tsuccessful"
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.OK "this is a multi-line
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string message"
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#### Long-form response
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A long-form response begins with the status word line. The status line
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should be composed of the status word and a new line. The status line must
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get followed by data format line and the actual response data. Optional
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attribute lines may get inserted between the status line and the data format
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line.
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The data format line begins with .DATA and it can get followed by a data length
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or the word 'chunked'.
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* .DATA <NNN>
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* .DATA chunked
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Use .DATA <NNN> where <NNN> indicates the length of data in bytes if the
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response data is length-bounded. For instance, .DATA 1234 indicates that
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the following data is 1234 bytes long.
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Use .DATA chunked if you don't know the length of response data in advance.
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The actual data begins at the next line to .DATA.
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The length-bounded response message looks like this. The response message
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handler must consume exactly the number of bytes specifed on the .LENGTH line
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starting from the beginning of the next line to .DATA without ignoring any
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characters.
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```
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.OK
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.DATA 10
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aaaaaaaaaa
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```
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The chunked data looks like this. Each chunk begins with the length and a colon.
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The 0 sized chunk indicates the end of data. A chunk size is in decimal and is
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followed by a colon. The actual data chunk starts immediately after the colon.
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The response processor must consume exactly the number of bytes specified in
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the chunk size part and attempt to read the size of the next chunk.
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The whitespaces between the end of the previous chunk data and the next chunk
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size, if any, should get ignored.
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```
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.OK
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.DATA chunked
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4:xxxx10:abcdef
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ghi
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0:
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```
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With the chunked data transfer format, you can revoke the ongoing response data
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and start a new response.
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```
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.OK
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.DATA chunked
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4:xxxx-1:.ERROR "error has occurred"
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```
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An optional attribute line is composed of the attribute name and the attribute
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value delimited by a whitespace. There are no defined attributes but the attribute
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name must not be one of .OK, ERROR, .DATA. The attribute value follows the same
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format as the status data of the short-form response.
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```
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.OK
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.TYPE json/utf8
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.DATA chunked
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....
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```
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