regex test
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regex.tal
308
regex.tal
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@ -36,41 +36,81 @@
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%print { debug newline }
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%quit! { #01 #0f DEO BRK }
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( test -> )
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( TESTING )
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(
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|0100
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;expr1 ;compile JSR2
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print
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;emit-stack JSR2
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;emit-arena JSR2
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newline
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;expr1 ;compile JSR2 print
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;emit-stack JSR2 newline
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;emit-arena JSR2 newline
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;test1 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test2 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test3 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test4 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test5 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test6 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test7 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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;test1 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test2 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test3 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test4 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test5 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test6 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test7 OVR2k ;match JSR2 ;emit-byte JSR2 space
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;test8 OVR2k ;match JSR2 ;emit-byte JSR2 newline
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newline
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;test1 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test2 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test3 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test4 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test5 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test6 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test7 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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;test1 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test2 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test3 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test4 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test5 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test6 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test7 ;graph1 ;match JSR2 ;emit-byte JSR2 space
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;test8 ;graph1 ;match JSR2 ;emit-byte JSR2 newline
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quit!
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)
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( TEST DATA )
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(
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( corresponds to regex: a(b|c)d* )
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@expr1 "a(b|c)d* 00
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( corresponds to regex: a(b|c)d* )
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( accepts "ab" or "ac" followd by any number of d's )
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@graph1
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03 'a :x1
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@x1 04 :x2 :x3
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@x2 03 'b :x4
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@x3 03 'c :x4
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@x4 05 :x5 0000
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@x5 03 'd :x4
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( test case strings to try matching )
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@test1 "ab 00 ( yes )
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@test2 "acdd 00 ( yes )
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@test3 "add 00 ( no )
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@test4 "abd 00 ( yes )
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@test5 "acddddddddddd 00 ( yes )
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@test6 "bd 00 ( no )
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@test7 "z 00 ( no )
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@test8 00 ( no )
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)
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( PRINTING DATA )
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@emit-short ( byte -- )
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SWP ;emit-byte JSR2 ;emit-byte JSR2 JMP2r
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@emit-byte ( byte -- )
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DUP #04 SFT ,&hex JSR #0f AND ,&hex JMP
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&hex #30 ADD DUP #39 GTH #27 MUL ADD emit
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JMP2r
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( ERROR HANDLING )
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( using error! will print the given message before causing )
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( the interpreter to halt. )
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@error! ( msg* -> )
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LIT '! emit space
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&loop LDAk ,&continue JCN ,&done JMP
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&continue LDAk emit INC2 ,&loop JMP
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&done POP2 newline quit!
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( error messages )
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@unknown-node-type "unknown 20 "node 20 "type 00
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@mismatched-parens "mismatched 20 "parenthesis 00
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@stack-is-full "stack 20 "is 20 "full 00
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@ -78,16 +118,27 @@
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@arena-is-full "arena 20 "is 20 "full 00
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@star-invariant "star 20 "invariant 20 "failed 00
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( REGEX MATCHING )
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( use stored regex to match against a stored string. )
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( )
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( regex* should be the address of a compiled regex )
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( such as that returned from ;compile. )
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( )
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( str* should be a null-terminated string. )
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( )
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( returns true if the string, and false otherwise. )
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@match ( str* regex* -> bool^ )
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;reset-stack JSR2
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;loop JMP2
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( loop used during matching )
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( )
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( we don't use the return stack here since that )
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( complicates the back-tracking we need to do. )
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( ultimately this code will issue a JMP2r to )
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( return a boolean, which is where the stack )
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( effects signature comes from. )
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@loop ( s* r* -> bool^ )
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LDAk #01 EQU ;do-empty JCN2
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LDAk #02 EQU ;do-dot JCN2
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@ -96,13 +147,15 @@
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LDAk #05 EQU ;do-or JCN2 ( same code as the or case )
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;unknown-node-type ;error! JSR2
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( used when we hit a dead-end during matching. )
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( )
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( if stack is non-empty we have a point we can resume from. )
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@goto-backtrack ( -> bool^ )
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;stack-exist JSR2 ,&has-stack JCN ( do we have stack? )
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#00 JMP2r ( no, return false )
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&has-stack
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;pop4 JSR2
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;goto-next JMP2 ( yes, resume from the top )
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&has-stack ;pop4 JSR2 ;goto-next JMP2 ( yes, resume from the top )
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( follow the given address (next*) to continue matching )
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@goto-next ( str* next* -> bool^ )
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DUP2 #0000 GTH2 ,&has-next JCN
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POP2 LDA null? ,&end-of-string JCN
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@ -110,16 +163,19 @@
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&end-of-string #01 JMP2r
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&has-next ;loop JMP2
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( handle the empty node -- just follow the next pointer )
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@do-empty ( str* regex* -> bool^ )
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INC2 LDA2 ( load next )
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;goto-next JMP2 ( jump to next )
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( handle dot -- match any one character )
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@do-dot ( str* regex* -> bool^ )
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INC2 LDA2 STH2 ( load and stash next )
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LDAk #00 NEQ ,&non-empty JCN ( is there a char? )
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POP2r POP2 ;goto-backtrack JMP2 ( no, clear stacks and backtrack )
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&non-empty INC2 STH2r ;goto-next JMP2 ( yes, inc s, restore and jump )
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( handle literal -- match one specific character )
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@do-literal ( str* regex* -> bool^ )
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INC2
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LDAk STH ( store c )
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@ -130,19 +186,23 @@
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&matches
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INC2 STH2r ;goto-next JMP2 ( yes, inc s, restore and jump )
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( handle or -- try the left branch but backtrack to the right if needed )
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( )
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( this also handles asteration, since it ends up having the same structure )
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@do-or ( str* regex* -> bool^ )
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INC2 OVR2 OVR2 #0002 ADD2 ( s r+1 s r+3 )
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LDA2 ;push4 JSR2 ( save (s, right) in the stack for possible backtracking )
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LDA2 ;loop JMP2 ( continue on left branch )
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( REGEX PARSING )
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( track the position in the input string )
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@pos $2
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( track how many levels deep we are in parenthesis )
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@parens $2
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( read and increments pos )
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( read and increment pos )
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@read ( -> c^ )
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;pos LDA2k ( pos s )
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LDAk STHk #00 EQU ( pos s c=0 [c] )
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@ -151,25 +211,24 @@
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SWP2 STA2 ,&return JMP ( [c] )
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&is-eof POP2 POP2
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&return STHr ( c )
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;pos LDA2 ;emit-short JSR2 LIT '> emit DUP ;emit-byte JSR2 newline
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JMP2r
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( read pos )
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@peek ( -> c^ )
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;pos LDA2 LDA JMP2r
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( is pos currently pointing to a star? )
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@peek-to-star ( -> is-star^ )
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;pos LDA2 LDA LIT '* EQU JMP2r
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( pos += 1 )
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( just increment pos )
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@skip
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;pos LDA2 ;emit-short JSR2 LIT '! emit
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;pos LDA2 INC2 ;pos STA2
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;pos LDA2 ;emit-short JSR2 newline
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JMP2r
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;pos LDA2 INC2 ;pos STA2 JMP2r
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( TODO: [] + ? )
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( compile an expression string into a regex graph )
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( )
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( the regex will be allocated in the arena; if there is not )
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( sufficient space an error will be thrown. )
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( )
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( the stack will also be used during parsing although unlike )
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( the arena it will be released once compilation ends. )
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@compile ( expr* -> regex* )
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;pos STA2
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#0000 ;parens STA2
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@ -201,28 +260,59 @@
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DUP LIT '* EQU ;c-star JCN2
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;c-char JMP2
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( either finalize the given r0/r1 or else wrap it in )
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( a star node if a star is coming up next. )
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( )
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( we use this look-ahead approach rather than compiling )
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( star nodes directly since the implementation is simpler. )
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@c-peek-and-finalize ( r0* r1* -> r2* )
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;peek-to-star JSR2 ( r0 r1 next-is-star? )
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,&next-is-star JCN ,&finally JMP ( r0 r1 )
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&next-is-star ;skip JSR2 POP2 ;alloc-star JSR2 DUP2 ( star )
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&finally ;push-next JSR2 ;compile-region-loop JMP2
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( called when we reach EOF of the input string )
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( )
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( as with c-rpar we have to unroll the current level )
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( of the stack, building any or-nodes that are needed. )
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( )
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( this is where we detect unclosed parenthesis. )
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@c-done ( c^ -> r2* )
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POP
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;parens LDA2 #0000 GTH2 ,&mismatched-parens JCN
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;unroll-stack JSR2 POP2 JMP2r
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&mismatched-parens ;mismatched-parens ;error! JSR2
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( called when we read "|" )
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( )
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( since we defer building or-nodes until the end of the region )
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( we just start a new stack frame and continue. )
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@c-or ( c^ -> r2* )
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POP
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#0000 #0000 ;push4 JSR2
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;compile-region-loop JMP2
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( called when we read "(" )
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( )
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( this causes us to: )
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( )
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( 1. increment parens )
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( 2. start a new region on the stack )
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( 3. jump to compile-region to start parsing the new region )
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@c-lpar ( c^ -> r2* )
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POP
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;parens LDA2 INC2 ;parens STA2 ( parens++ )
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;compile-region JMP2
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( called when we read ")" )
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( )
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( this causes us to: )
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( )
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( 1. check for mismatched parens )
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( 2. decrement parens )
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( 3. unroll the current region on the stack into one regex node )
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( 4. finalize that node and append it to the previous region )
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( 5. continue parsing )
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@c-rpar ( c^ -> r2* )
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POP
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;parens LDA2 #0000 EQU2 ,&mismatched-parens JCN
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@ -231,36 +321,48 @@
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;c-peek-and-finalize JMP2
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&mismatched-parens ;mismatched-parens ;error! JSR2
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( called when we read "." )
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( )
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( allocates a dot-node and continues. )
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@c-dot ( c^ -> r2* )
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POP
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;alloc-dot JSR2 ( dot )
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DUP2 ;c-peek-and-finalize JMP2
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@c-char ( c^ -> r2* )
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;alloc-lit JSR2 ( lit )
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DUP2 ;c-peek-and-finalize JMP2
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( TODO: escaping rules not quite right )
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( called when we read "\" )
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( )
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( allocates a literal of the next character. )
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( )
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( this doesn't currently handle any special escape sequences. )
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@c-esc ( c^ -> r2* )
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POP
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;read JSR2
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;c-char JMP2
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( we don't expect to actually handle this )
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( called when we read any other character )
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( )
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( allocates a literal-node and continues. )
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@c-char ( c^ -> r2* )
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;alloc-lit JSR2 ( lit )
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DUP2 ;c-peek-and-finalize JMP2
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( called if we parse a "*" )
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( )
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( actually calling this means the code broke an invariant somewhere. )
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@c-star ( c^ -> regex* )
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POP
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;star-invariant ;error! JSR2
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( allocate node types ------ )
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( ALLOCATING REGEX NDOES )
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@alloc3 ( mode^ -> r* )
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#0000 ROT ( 00 00 mode^ )
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#03 ;alloc JSR2 ( 00 00 mode^ addr* )
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STH2k STA
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STH2kr INC2 STA2
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STH2r
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JMP2r
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STH2k STA ( addr <- mode )
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STH2kr INC2 STA2 ( addr+1 <- 0000 )
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STH2r JMP2r ( return addr )
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@alloc-empty ( -> r* )
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#01 ;alloc3 JMP2
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#02 ;alloc3 JMP2
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@alloc-lit ( c^ -> r* )
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#03 #0000 SWP2
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#04 ;alloc JSR2
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STH2k STA
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STH2kr INC2 STA
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STH2kr #0002 ADD2 STA2
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STH2r
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JMP2r
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#03 #0000 SWP2 ( 0000 c^ 03 )
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#04 ;alloc JSR2 ( 0000 c^ 03 addr* )
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STH2k STA ( addr <- 03 )
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STH2kr INC2 STA ( addr+1 <- c )
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STH2kr #0002 ADD2 STA2 ( addr+2 <- 0000 )
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STH2r JMP2r ( return addr )
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@alloc-or ( right* left* -> r* )
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#05 ;alloc JSR2 STH2 ( r l [x] )
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;set-next JSR2 ( [r] )
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STH2r JMP2r
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( unroll one part of the parsing stack, returning )
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( unroll one region of the parsing stack, returning )
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( a single node consisting of an alternation of )
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( all elements on the stack. )
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( )
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JMP2r
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&is-zero POP2 POP2 ;push4 JSR2 JMP2r
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( load the given address: )
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( )
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( 1. if it points to 0000, update it to target )
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( 2. otherwise, call set-next on it )
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@set-next-addr ( target* addr* -> )
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LDA2k #0000 EQU2 ( target addr addr=0? ) ,&is-zero JCN
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LDA2 ;set-next JSR2 JMP2r
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@ -349,60 +454,15 @@
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&!4 LDAk #05 NEQ ,&!5 JCN #0003 ADD2 ;set-next-addr JSR2 JMP2r
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&!5 ;unknown-node-type ;error! JSR2
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@remove-addr ( target* addr* -> )
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LDA2k #0000 EQU2 ( t a v=0? ) ,&is-zero JCN
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OVR2 OVR2 LDA2 EQU2 ( t a t=v? ) ,&is-equal JCN
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LDA2 ( t v ) ;remove-from JSR2 JMP2r
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&is-zero POP2 POP2 JMP2r
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&is-equal NIP2 #0000 SWP2 STA2 JMP2r
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( remove target from regex )
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@remove-from ( target* regex* -> )
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LDAk #01 NEQ ,&!1 JCN INC2 ;remove-addr JSR2 JMP2r
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&!1 LDAk #02 NEQ ,&!2 JCN INC2 ;remove-addr JSR2 JMP2r
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&!2 LDAk #03 NEQ ,&!3 JCN #0002 ADD2 ;remove-addr JSR2 JMP2r
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&!3 LDAk #04 NEQ ,&!4 JCN
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OVR2 OVR2 INC2 ;remove-addr JSR2
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#0003 ADD2 ;remove-addr JSR2 JMP2r
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&!4 LDAk #05 NEQ ,&!5 JCN #0003 ADD2 ;remove-addr JSR2 JMP2r
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&!5 ;unknown-node-type ;error! JSR2
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( test cases -------- )
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( corresponds to regex: a(b|c)d* )
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@expr1 "a(b|c)d* 00
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( corresponds to regex: a(b|c)d* )
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( accepts "ab" or "ac" followd by any number of d's )
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@graph1
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03 'a :x1
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@x1 04 :x2 :x3
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@x2 03 'b :x4
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@x3 03 'c :x4
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@x4 05 :x5 0000
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@x5 03 'd :x4
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@test1 "ab 00 ( yes )
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@test2 "acdd 00 ( yes )
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@test3 "add 00 ( no )
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@test4 "abd 00 ( yes )
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@test5 "acddddddddddd 00 ( yes )
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@test6 "bd 00 ( no )
|
||||
@test7 "z 00 ( no )
|
||||
@test8 00 ( no )
|
||||
|
||||
( emit byte/short )
|
||||
|
||||
@emit-short ( byte -- )
|
||||
SWP ;emit-byte JSR2 ;emit-byte JSR2 JMP2r
|
||||
|
||||
@emit-byte ( byte -- )
|
||||
DUP #04 SFT ,&hex JSR #0f AND ,&hex JMP
|
||||
&hex #30 ADD DUP #39 GTH #27 MUL ADD emit
|
||||
JMP2r
|
||||
|
||||
( stack operations ---- )
|
||||
( STACK OPERATIONS )
|
||||
( )
|
||||
( we always push/pop 4 bytes at a time. the stack has a fixed )
|
||||
( maximum size it can use, defined by ;stack-top. )
|
||||
( )
|
||||
( the stack can be cleared using ;reset-stack, which resets )
|
||||
( the stack pointers but does not zero out any memory. )
|
||||
|
||||
( push 4 bytes onto the stack )
|
||||
@push4 ( str* regex* -> )
|
||||
;assert-stack-avail JSR2 ( check for space )
|
||||
;stack-pos LDA2 #0002 ADD2 STA2 ( cell[2:3] <- regex )
|
||||
|
@ -410,6 +470,7 @@
|
|||
;stack-pos LDA2 #0004 ADD2 ;stack-pos STA2 ( pos += 4 )
|
||||
JMP2r
|
||||
|
||||
( pop 4 bytes from the stack )
|
||||
@pop4 ( -> str* regex* )
|
||||
;assert-stack-exist JSR2 ( check for space )
|
||||
;stack-pos LDA2 ( load stack-pos )
|
||||
|
@ -419,18 +480,27 @@
|
|||
STH2r STH2r ( restore str and regex )
|
||||
JMP2r
|
||||
|
||||
( reset stack pointers )
|
||||
@reset-stack ( -> )
|
||||
;stack-bot ;stack-pos STA2 JMP2r ( pos <- 0 )
|
||||
|
||||
( can more stack be allocated? )
|
||||
@stack-avail ( -> bool^ )
|
||||
;stack-pos LDA2 ;stack-top LTH2 JMP2r
|
||||
|
||||
( is the stack non-empty? )
|
||||
@stack-exist ( -> bool^ )
|
||||
;stack-pos LDA2 ;stack-bot GTH2 JMP2r
|
||||
|
||||
( error if stack is full )
|
||||
@assert-stack-avail ( -> )
|
||||
;stack-avail JSR2 ,&ok JCN ;stack-is-full ;error! JSR2 &ok JMP2r
|
||||
|
||||
( error is stack is empty )
|
||||
@assert-stack-exist ( -> )
|
||||
;stack-exist JSR2 ,&ok JCN ;stack-is-empty ;error! JSR2 &ok JMP2r
|
||||
|
||||
( print stack size, followed by contents )
|
||||
@emit-stack ( -> )
|
||||
space LIT 'n emit LIT '= emit ;stack-pos LDA2 ;stack-bot SUB2 #0004 DIV2 ;emit-short JSR2 LIT ': emit
|
||||
;stack-bot
|
||||
|
@ -441,14 +511,31 @@
|
|||
space LDA2k ;emit-short JSR2
|
||||
#0002 ADD2 ,&loop JMP
|
||||
|
||||
( stack-pos points to the next free stack position (or the top if full). )
|
||||
@stack-pos :stack-bot ( the next position to insert at )
|
||||
|
||||
( stack-bot is the address of the first stack position. )
|
||||
( stack-top is the address of the first byte beyond the stack. )
|
||||
@stack-bot $1000 @stack-top ( holds 1024 steps (4096 bytes) )
|
||||
|
||||
( arena operations ---- )
|
||||
( ARENA OPERATIONS )
|
||||
( )
|
||||
( the arena represents a heap of memory that can easily be )
|
||||
( allocated in small amounts. )
|
||||
( )
|
||||
( the entire arena can be reclaimed using ;reset-arena, but )
|
||||
( unlike systems such as malloc/free, the arena cannot relcaim )
|
||||
( smaller amounts of memory. )
|
||||
( )
|
||||
( the arena is used to allocate regex graph nodes, which are )
|
||||
( dynamically-allocated as the regex string is parsed. once )
|
||||
( a regex is no longer needed the arena may be reclaimed. )
|
||||
|
||||
( reclaim all the memory used by the arena )
|
||||
@reset-arena ( -> )
|
||||
;arena-bot ;arena-pos STA2 JMP2r
|
||||
|
||||
( currently caller is responsible for zeroing out memory if needed )
|
||||
@alloc ( size^ -> addr* )
|
||||
#00 SWP ( size* )
|
||||
;arena-pos LDA2 STH2k ADD2 ( pos+size* [pos] )
|
||||
|
@ -462,6 +549,7 @@
|
|||
@arena-pos :arena-bot ( the next position to allocate )
|
||||
@arena-bot $400 @arena-top ( holds up to 1024 bytes )
|
||||
|
||||
( emit n bytes from the given address )
|
||||
@emit-n ( addr* count^ -> addr2* )
|
||||
DUP #00 GTH ( addr count count>0? ) ,&ok JCN ( addr count ) POP newline JMP2r
|
||||
&ok
|
||||
|
@ -469,6 +557,8 @@
|
|||
STHr #01 SUB ( addr+1 count-1 )
|
||||
;emit-n JMP2
|
||||
|
||||
( emit the arena, with one line per node )
|
||||
( parses node type, since node size is dynamic (3-5). )
|
||||
@emit-arena ( -> )
|
||||
;arena-bot
|
||||
&loop
|
||||
|
|
|
@ -0,0 +1,56 @@
|
|||
%dbg { #ff #0e DEO }
|
||||
%sp { #20 #18 DEO }
|
||||
%nl { #0a #18 DEO }
|
||||
%exit { #01 #0f DEO BRK }
|
||||
|
||||
|0100
|
||||
;expr1 ;compile JSR2 dbg nl
|
||||
;emit-stack JSR2 nl
|
||||
;emit-arena JSR2 nl
|
||||
|
||||
;test1 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test2 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test3 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test4 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test5 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test6 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test7 OVR2k ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test8 OVR2k ;match JSR2 ;emit-byte JSR2 nl
|
||||
|
||||
;test1 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test2 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test3 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test4 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test5 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test6 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test7 ;graph1 ;match JSR2 ;emit-byte JSR2 sp
|
||||
;test8 ;graph1 ;match JSR2 ;emit-byte JSR2 nl
|
||||
|
||||
;reset-arena JSR2
|
||||
exit
|
||||
|
||||
( corresponds to regex: a(b|c)d* )
|
||||
@expr1 "a(b|c)d* 00
|
||||
|
||||
( corresponds to regex: a(b|c)d* )
|
||||
( accepts "ab" or "ac" followd by any number of d's )
|
||||
@graph1
|
||||
03 'a :x1
|
||||
@x1 04 :x2 :x3
|
||||
@x2 03 'b :x4
|
||||
@x3 03 'c :x4
|
||||
@x4 05 :x5 0000
|
||||
@x5 03 'd :x4
|
||||
|
||||
( test case strings to try matching )
|
||||
@test1 "ab 00 ( yes )
|
||||
@test2 "acdd 00 ( yes )
|
||||
@test3 "add 00 ( no )
|
||||
@test4 "abd 00 ( yes )
|
||||
@test5 "acddddddddddd 00 ( yes )
|
||||
@test6 "bd 00 ( no )
|
||||
@test7 "z 00 ( no )
|
||||
@test8 00 ( no )
|
||||
|
||||
~regex.tal
|
||||
|
Loading…
Reference in New Issue