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Latest revision as of 19:55, 29 November 2023

Here is a library of functions tested in GhostScript. It is assumed to be loaded before startup with a command-line such as ghostscript -q -dNODISPLAY -c '(initlib.ps) run'

`initlib.ps`

%!PS
% conventions: parameter names with let begins with .

% basic definition, makes the definitions less verbose.
/. {bind def} bind def
/' {load} bind def
/reverse {{} exch {exch [3 1 roll aload pop]} forall}.
/let {dup length dict begin reverse {exch def} forall}.
/let* {reverse {exch def} forall}.

% some predicates.
/eq? {eq}.
/list? {dup type /arraytype eq?}.
/leaf? {list? not}.
/empty? {dup length 0 eq?}.
/zero? {dup 0 eq?}.

% stack invariant, execute any predicate and
% leave stack untouched except for answer.
/? {
4 dict begin
	[/.pred] let*
	count array astore /.stack exch def
	/_restore {clear .stack aload pop}.
	.stack aload pop .pred /.top exch def
	_restore .top
end}.

% stacky functions
/rup {3 1 roll}.
/rdown {3 -1 roll}.
/# {exch dup rdown .makeoperator bind def} bind def

/getname {dup 0 get exch}.
/getbody {dup length 1 sub 1 exch getinterval}.

% convenience arithmetic
/+ {add}.
/- {sub}.
/* {mul}.
/\ {div}.

% lispy functions
/first {0 get}.
/car {first}.
/!first {dup first}.
/rest {dup length 1 sub 1 exch getinterval}.
/cdr {rest}.
/!rest {dup rest}.
/head  {dup length 1 sub 0 exch getinterval}.
/!head {dup head}.
/tail  {dup length 1 sub get}.
/!tail {dup tail}.
/cons  {[rup aload pop]}.
/tadd  {[rup aload length 1 add -1 roll] }.
/uncons {getname getbody}.
/concat {exch [ rup aload pop counttomark -1 roll aload pop ] }.

% make a unit list.
/unit {1 array astore cvx}.
/succ {1 add}.
/pred {1 sub}.
/range {[rup exch aload pop rup exch rdown {} for]}.

% higher order thingies.
/map { [ rup forall ] }.
% [1 2 3 4] {1 add} map
/fold {rup exch rdown forall}.
%/reverse {{} {exch cons} fold}.
% {} [1 2 3 4 5] {exch cons} forall

% [1 2 3 4] 0 {+} fold
% name - filter is taken so we are left with..
/find {
4 dict begin
	/aif {0 /get /if}.
	/atox { [ exch cvx {cvx} forall ] cvx}.
	[ rup [ /dup rdown /exec /not [{pop}] aif ] atox forall ]
end}.

/transpose {
	[ exch {
		{ {empty? exch pop} map all?} {pop exit} ift
		[ exch {} {uncons {exch cons} dip exch} fold counttomark 1 roll] uncons
	} loop ] {reverse} map
}.
/zip {[rup] transpose}.

% [[1 2 3 4 ] [5 6 7 8] [9 10 11 12]]  transpose
/all? {
	{
		{empty?} ? {pop true exit} if
		uncons {?} dip exch not {pop false exit} if
	} loop
}.
% 1 {{10 gt} {5 gt} {0 gt}} any?
/any? {
	{
		{empty?} ? {pop false exit} if
		uncons {?} dip exch {pop true exit} if
	} loop
}.
/pipe {
	{
		{empty?} ? {pop exit} if
		uncons {i} dip
	} loop
}.
%  1 {{2 *} {3 *} {5 *}} pipe
/collect {
	{
		{empty?} ? {pop exit} if
		uncons {?} dip
	} loop
}.
%  1 {{2 *} {3 *} {5 *}} collect

% do on all elements of a tree.
/treemap {
[/.tree /.rec] let
	/.tree '
	{leaf?} /.rec '
		{{empty?} {}
			{dup
				{first /.rec ' treemap} dip
				{rest /.rec ' treemap} i cons}
		ifte}
	ifte
end}.

% control structures
% ift - allow stack invariant if condition
/ift {
[/.if /.then] let
	/.if ' ?  /.then ' if
end}.
% ift - allow stack invariant ifelse condition
/ifte {
[/.if /.then /.else] let
	/.if ' ?  /.then ' /.else ' ifelse
end}.
% switch statement.
/is? {{exit} concat cvx ift}.
/cond {{exit} concat cvx loop}.

% combinators
/dip {
[/.v /.q] let
	.q /.v '
end}.
/apply {exec}.
/i {cvx exec}.

/linrec {
[/.if /.then /.rec1 /.rec2] let
	/.if ' /.then '
		{.rec1
			{/.if ' /.then ' /.rec1 ' /.rec2 ' linrec} i
		.rec2}
	ifte
end}.

/binrec {
[/.if /.then /.rec1 /.rec2] let
	/.if ' /.then '
		{ .rec1
			{/.if ' /.then ' /.rec1 ' /.rec2 ' binrec} dip
			{/.if ' /.then ' /.rec1 ' /.rec2 ' binrec} i
		.rec2 }
	ifte
end}.

/genrec {
[/.if /.then /.rec1 /.rec2] let
	/.if ' /.then '
		{.rec1
			{/.if ' /.then ' /.rec1 ' /.rec2 ' genrec}
		.rec2}
	ifte
end}.

/tailrec {{} linrec}.

/primrec {
5 dict begin
	/lzero? {
		{list?} {empty?}
				{zero?}
		ifte}.
	/lnext {
		{list?} {rest}
				{pred}
		ifte}.
[/.param /.then /.rec] let*
	{/.param ' lzero?} /.then '
		{.param
			{/.param ' lnext /.then ' /.rec ' primrec} i
		.rec}
	ifte
end}.

/cvstr {
4 dict begin
	/elements exch def
	/len elements length def
	/str len string def
	/i 0 def
	{
		i len ge { exit } if
		str i
		% The element of the array, as a hexadecimal string.
		% If it exceeds 16#FF, this will fail with a rangecheck.
		elements i get cvi
		put
		/i i 1 add def
	} loop
	str
end
} def


% debug
/puts {= (\n) print flush}.
/, {(=============\n)
	print pstack
	(=============\n) print}.

% set the prompt to something else so that we know initlib is loaded.
/prompt {(>| ) print flush} bind def

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Pages in category "Initlib"

The following 27 pages are in this category, out of 27 total.

Revision as of 22:22, 24 March 2011 (view source) Rahul (talk \| contribs) (Move the library initlib definitions here.)		Latest revision as of 19:55, 29 November 2023 (view source) Alhadis (talk \| contribs) (Improved display of source code, enabled syntax highlighting, and fixed sloppy formatting and typos.)
(12 intermediate revisions by 2 users not shown)
Line 1: =={{Library==}} Here is a library of functions tested in ~~ghostscript~~GhostScript. It is assumed to be loaded before startup with a command -line such as <syntaxhighlight lang="shell" inline> ~~<lang>~~ ghostscript -q -dNODISPLAY -c '(initlib.ps) run' </syntaxhighlight> ~~</lang>~~ == <code>initlib.ps</code> == <~~lang~~syntaxhighlight lang="postscript" lines> %!PS ~~% given [sym x y z] get sym and [x y z] separately~~ % conventions: parameter names with let begins with . ~~/getname {dup 0 get exch} bind def~~ ~~/getbody {dup length 1 sub 1 exch getinterval} bind def~~ % basic definition, makes the definitions less verbose. ~~/rup {3 1 roll} bind def~~ ~~/rdown {3 -1 roll} bind def~~ ~~% convenience for binding.~~ /. {bind def} bind def /' {load} bind def /reverse {{} exch {exch [3 1 roll aload pop]} forall}. ~~% .makeoperator is ghostscript specific. But this gives us lexical binding.~~ /let {dup length dict begin reverse {exch def} forall}. /let* {reverse {exch def} forall}. % some predicates. /eq? {eq}. /list? {dup type /arraytype eq?}. /leaf? {list? not}. /empty? {dup length 0 eq?}. /zero? {dup 0 eq?}. % stack invariant, execute any predicate and % leave stack untouched except for answer. /? { 4 dict begin [/.pred] let* count array astore /.stack exch def /_restore {clear .stack aload pop}. .stack aload pop .pred /.top exch def _restore .top end}. % stacky functions /rup {3 1 roll}. /rdown {3 -1 roll}. /# {exch dup rdown .makeoperator bind def} bind def ~~% A few lispy words~~ /getname {dup 0 get exch}. /getbody {dup length 1 sub 1 exch getinterval}. % convenience arithmetic /+ {add}. /- {sub}. /* {mul}. /\ {div}. % lispy functions /first {0 get}. /car {first}. Line 28 ⟶ 60: /tail {dup length 1 sub get}. /!tail {dup tail}. /cons {[rup aload pop] }. /tadd {[rup aload length 1 add -1 roll] }. /uncons {getname getbody}. /concat {exch [ rup aload pop counttomark -1 roll aload pop ] }. ~~% higher order~~ % make a unit list. ~~/map {~~ /unit {1 array astore cvx}. ~~[ rup forall ]~~ /succ {1 add}. }. /pred {1 sub}. /range {[rup exch aload pop rup exch rdown {} for]}. % higher order thingies. /map { [ rup forall ] }. % [1 2 3 4] {1 add} map /fold {rup exch rdown forall}. %/reverse ~~[1 2 3 4 5] 1~~{{} {~~add~~exch cons} fold}. % {} [1 2 3 4 5] {exch cons} forall ~~% let requires "end" to denote end of scope~~ ~~/let {dup length dict begin reverse {exch def} forall}.~~ ~~% let* assumes dictionary management is separate.~~ ~~/let* {reverse {exch def} forall}.~~ % [1 2 3 4] 0 {+} fold % name - filter is taken so we are left with.. /find { 4 dict begin /aif {0 /get /if}. /atox { [ exch cvx {cvx} forall ] cvx}. [ rup [ /dup rdown /exec /not [{pop}] aif ] atox forall ] end}. ~~% ifs with stack invariant predicates.~~ /~~ift~~transpose { [ exch { ~~4 dict begin~~ { {empty? exch pop} map all?} {pop exit} ift [/.if /.then] let* [ exch {} {uncons {exch cons} dip exch} fold counttomark 1 roll] uncons ~~count array astore /.stack exch def~~ } loop ] {reverse} map ~~/_restore {clear .stack aload pop}.~~ }. ~~.stack aload pop .if {~~ /zip {[rup] transpose}. ~~_restore .then~~ ~~} {~~ % [[1 2 3 4 ] [5 6 7 8] [9 10 11 12]] transpose ~~_restore~~ /all? { ~~} ifelse~~ { {empty?} ? {pop true exit} if uncons {?} dip exch not {pop false exit} if } loop }. % 1 {{10 gt} {5 gt} {0 gt}} any? /any? { { {empty?} ? {pop false exit} if uncons {?} dip exch {pop true exit} if } loop }. /pipe { { {empty?} ? {pop exit} if uncons {i} dip } loop }. % 1 {{2 } {3 } {5 }} pipe /collect { { {empty?} ? {pop exit} if uncons {?} dip } loop }. % 1 {{2 } {3 } {5 }} collect % do on all elements of a tree. /treemap { [/.tree /.rec] let /.tree ' {leaf?} /.rec ' {{empty?} {} {dup {first /.rec ' treemap} dip {rest /.rec ' treemap} i cons} ifte} ifte end}. ~~% 2 {1 gt} {=} ift~~ % control structures % ift - allow stack invariant if condition /ift { [/.if /.then] let /.if ' ? /.then ' if end}. % ift - allow stack invariant ifelse condition /ifte { [/.if /.then /.else] let ~~4 dict begin~~ /.if ' ? ~~[/.if~~ /.then ' /.else] let' ifelse end}. ~~count array astore /.stack exch def~~ % switch statement. ~~/_restore {count array astore pop .stack aload pop}.~~ /is? {{exit} concat cvx ift}. ~~.stack aload pop .if {~~ /cond {{exit} concat cvx loop}. ~~_restore .then~~ ~~} {~~ % combinators ~~_restore .else~~ /dip { ~~} ifelse~~ [/.v /.q] let .q /.v ' end}. ~~% 1 {2 gt} {3 =} {2 * =} ifte~~ /apply {exec}. /i {cvx exec}. ~~% make a unit list.~~ ~~/unit {1 array astore cvx}.~~ ~~/succ {1 add}.~~ ~~/pred {1 sub}.~~ ~~% combinators~~ /linrec { [/.if /.then /.~~rec~~rec1 /.~~join~~rec2] let /.if ' /.then ' ~~.if {.then} {.rec /.if ' /.then ' /.rec ' /.join ' linrec . join } ifelse~~ {.rec1 {/.if ' /.then ' /.rec1 ' /.rec2 ' linrec} i .rec2} ifte end}. /binrec { ~~% and convenience~~ [/.if /.then /.rec1 /.rec2] let ~~/reverse {{} {exch cons} fold}.~~ /.if ' /.then ' ~~/puts {print (\n) print flush}.~~ { .rec1 {/.if ' /.then ' /.rec1 ' /.rec2 ' binrec} dip {/.if ' /.then ' /.rec1 ' /.rec2 ' binrec} i .rec2 } ifte end}. /genrec { [/.if /.then /.rec1 /.rec2] let /.if ' /.then ' {.rec1 {/.if ' /.then ' /.rec1 ' /.rec2 ' genrec} .rec2} ifte end}. /tailrec {{} linrec}. /primrec { 5 dict begin /lzero? { {list?} {empty?} {zero?} ifte}. /lnext { {list?} {rest} {pred} ifte}. [/.param /.then /.rec] let* {/.param ' lzero?} /.then ' {.param {/.param ' lnext /.then ' /.rec ' primrec} i .rec} ifte end}. /cvstr { 4 dict begin /elements exch def /len elements length def /str len string def /i 0 def { i len ge { exit } if str i % The element of the array, as a hexadecimal string. % If it exceeds 16#FF, this will fail with a rangecheck. elements i get cvi put /i i 1 add def } loop str end } def % debug /puts {= (\n) print flush}. /, {(=============\n) print pstack (=============\n) print}. ~~% set the prompt~~ % set the prompt to something else so that we know initlib is loaded. ~~/prompt {(>\| ) print flush} bind def~~ /prompt {(>\| ) print flush} bind def</syntaxhighlight> ~~</lang>~~

Latest revision as of 19:55, 29 November 2023

initlib.ps

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`initlib.ps`