modernize immediate jumps
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402
regex.tal
402
regex.tal
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@ -97,10 +97,10 @@
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( using error! will print the given message before causing )
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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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( the interpreter to halt. )
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@error!! ( msg* -> )
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@errorm ( msg* -> )
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LIT "! emit! space
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LIT "! emit! space
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&loop LDAk #00 EQU ,&done JCN
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&loop LDAk #00 EQU ?&done
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LDAk emit! INC2 ,&loop JMP
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LDAk emit! INC2 !&loop
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&done POP2 newline #ff0e DEO #010f DEO BRK
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&done POP2 newline #ff0e DEO #010f DEO BRK
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( error messages )
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( error messages )
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@ -126,34 +126,34 @@
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@rx-match ( str* regex* -> bool^ )
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@rx-match ( str* regex* -> bool^ )
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#01 ;match-multiline STA
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#01 ;match-multiline STA
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#00 ;search-mode STA
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#00 ;search-mode STA
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;rx-reset JSR2
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rx-reset
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;loop JMP2
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!loop
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@rx-search-multiline ( str* regex* -> bool^ )
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@rx-search-multiline ( str* regex* -> bool^ )
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#01 ;match-multiline STA
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#01 ;match-multiline STA
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#01 ;search-mode STA
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#01 ;search-mode STA
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,rx-search/main JMP
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!rx-search/main
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@rx-search ( str* regex* -> bool^ )
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@rx-search ( str* regex* -> bool^ )
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#00 ;match-multiline STA
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#00 ;match-multiline STA
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#01 ;search-mode STA
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#01 ;search-mode STA
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&main STH2 ( s* [r*] )
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&main STH2 ( s* [r*] )
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DUP2 ;string-start STA2 ( s* [r*] )
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DUP2 ;string-start STA2 ( s* [r*] )
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&loop LDAk #00 EQU ,&eof JCN ( s* [r*] )
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&loop LDAk #00 EQU ?&eof ( s* [r*] )
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;rx-reset JSR2 ( s* [r*] )
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rx-reset ( s* [r*] )
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DUP2 ;search-start STA2 ( s* [r*] )
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DUP2 ;search-start STA2 ( s* [r*] )
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DUP2 STH2kr ;loop JSR2 ( s* b^ [r*] )
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DUP2 STH2kr loop ( s* b^ [r*] )
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,&found JCN ( s* [r*] )
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?&found ( s* [r*] )
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INC2 ,&loop JMP ( s+1* [r*] )
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INC2 !&loop ( s+1* [r*] )
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&found POP2 POP2r #01 JMP2r ( 01 )
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&found POP2 POP2r #01 JMP2r ( 01 )
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&eof ;rx-reset JSR2 ( s* [r*] )
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&eof rx-reset ( s* [r*] )
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DUP2 ;search-start STA2 ( s* [r*] )
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DUP2 ;search-start STA2 ( s* [r*] )
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STH2r ;loop JMP2 ( b^ )
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STH2r !loop ( b^ )
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( reset all "runtime" memory allocated during match/search )
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( reset all "runtime" memory allocated during match/search )
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@rx-reset ( -> )
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@rx-reset ( -> )
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;reset-stack JSR2
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reset-stack
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;subgroup-reset JMP2
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!subgroup-reset
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( loop used during matching )
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( loop used during matching )
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( )
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( )
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@ -163,87 +163,87 @@
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( return a boolean, which is where the stack )
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( return a boolean, which is where the stack )
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( effects signature comes from. )
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( effects signature comes from. )
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@loop ( s* r* -> bool^ )
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@loop ( s* r* -> bool^ )
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LDAk #01 EQU ;do-empty JCN2
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LDAk #01 EQU ?do-empty
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LDAk #02 EQU ;do-dot JCN2
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LDAk #02 EQU ?do-dot
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LDAk #03 EQU ;do-literal JCN2
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LDAk #03 EQU ?do-literal
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LDAk #04 EQU ;do-or JCN2
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LDAk #04 EQU ?do-or
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LDAk #05 EQU ;do-or JCN2 ( same code as the or case )
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LDAk #05 EQU ?do-or ( same code as the or case )
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LDAk #06 EQU ;do-caret JCN2
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LDAk #06 EQU ?do-caret
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LDAk #07 EQU ;do-dollar JCN2
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LDAk #07 EQU ?do-dollar
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LDAk #08 EQU ;do-lpar JCN2
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LDAk #08 EQU ?do-lpar
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LDAk #09 EQU ;do-rpar JCN2
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LDAk #09 EQU ?do-rpar
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LDAk #0a EQU ;do-ccls JCN2
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LDAk #0a EQU ?do-ccls
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LDAk #0b EQU ;do-ncls JCN2
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LDAk #0b EQU ?do-ncls
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LDAk #dd ;unknown-node-type ;error!! JSR2
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LDAk #dd ;unknown-node-type errorm
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( used when we hit a dead-end during matching. )
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( used when we hit a dead-end during matching. )
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( )
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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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( if stack is non-empty we have a point we can resume from. )
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@goto-backtrack ( -> bool^ )
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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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stack-exist ?&has-stack ( do we have stack? )
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#00 JMP2r ( no, return false )
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#00 JMP2r ( no, return false )
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&has-stack
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&has-stack
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;pop4 JSR2
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pop4
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;subgroup-backtrack JSR2
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subgroup-backtrack
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;goto-next JMP2 ( yes, resume from the top )
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!goto-next ( yes, resume from the top )
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( follow the given address (next*) to continue matching )
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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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@goto-next ( str* next* -> bool^ )
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DUP2 #0000 GTH2 ,&has-next JCN
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DUP2 #0000 GTH2 ?&has-next
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POP2 LDAk #00 EQU ,&end-of-string JCN
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POP2 LDAk #00 EQU ?&end-of-string
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;search-mode LDA ,&end-of-search JCN
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;search-mode LDA ?&end-of-search
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POP2 ;goto-backtrack JMP2
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POP2 !goto-backtrack
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&end-of-search DUP2 ;search-end STA2
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&end-of-search DUP2 ;search-end STA2
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&end-of-string POP2 #01 JMP2r
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&end-of-string POP2 #01 JMP2r
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&has-next ;loop JMP2
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&has-next !loop
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( handle the empty node -- just follow the next pointer )
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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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@do-empty ( str* regex* -> bool^ )
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INC2 LDA2 ( load next )
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INC2 LDA2 ( load next )
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;goto-next JMP2 ( jump to next )
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!goto-next ( jump to next )
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( FIXME: not currently used )
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( FIXME: not currently used )
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@do-lpar ( str* regex* -> bool^ )
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@do-lpar ( str* regex* -> bool^ )
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STH2 DUP2 ( s s [r] )
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STH2 DUP2 ( s s [r] )
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INC2r LDA2kr STH2r ( s s i [r+1] )
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INC2r LDA2kr STH2r ( s s i [r+1] )
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;subgroup-start JSR2 ( s [r+1] )
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subgroup-start ( s [r+1] )
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STH2r INC2 INC2 ( s r+3 )
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STH2r INC2 INC2 ( s r+3 )
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LDA2 ;goto-next JMP2 ( jump to next )
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LDA2 !goto-next ( jump to next )
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( FIXME: not currently used )
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( FIXME: not currently used )
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@do-rpar ( str* regex* -> bool^ )
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@do-rpar ( str* regex* -> bool^ )
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STH2 DUP2 ( s s [r] )
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STH2 DUP2 ( s s [r] )
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INC2r LDA2kr STH2r ( s s i [r+1] )
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INC2r LDA2kr STH2r ( s s i [r+1] )
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;subgroup-finish JSR2 ( s [r+1] )
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subgroup-finish ( s [r+1] )
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STH2r INC2 INC2 ( s r+3 )
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STH2r INC2 INC2 ( s r+3 )
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LDA2 ;goto-next JMP2 ( jump to next )
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LDA2 !goto-next ( jump to next )
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( handle dot -- match any one character )
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( handle dot -- match any one character )
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@do-dot ( str* regex* -> bool^ )
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@do-dot ( str* regex* -> bool^ )
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INC2 LDA2 STH2 ( load and stash next )
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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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LDAk #00 NEQ ?&non-empty ( is there a char? )
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&backtrack POP2r POP2 ;goto-backtrack JMP2 ( no, clear stacks and backtrack )
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&backtrack POP2r POP2 !goto-backtrack ( no, clear stacks and backtrack )
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&non-empty LDAk #0a NEQ ,&match JCN ( yes, match unless \n in search-mode )
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&non-empty LDAk #0a NEQ ?&match ( yes, match unless \n in search-mode )
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;search-mode LDA ,&backtrack JCN ( if \n and search-mode, treat as EOF )
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;search-mode LDA ?&backtrack ( if \n and search-mode, treat as EOF )
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&match INC2 STH2r ;goto-next JMP2 ( on match: inc s, restore and jump )
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&match INC2 STH2r !goto-next ( on match: inc s, restore and jump )
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( hande caret -- match string start (or possibly after newline) without advancing )
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( hande caret -- match string start (or possibly after newline) without advancing )
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@do-caret ( str* regex* -> bool^ )
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@do-caret ( str* regex* -> bool^ )
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INC2 LDA2 STH2 ( load and stash next )
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INC2 LDA2 STH2 ( load and stash next )
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DUP2 ;string-start LDA2 EQU2 ,&at-start JCN ( at string start? )
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DUP2 ;string-start LDA2 EQU2 ?&at-start ( at string start? )
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;match-multiline LDA ,&no-match JCN ( are we in multi-line mode? )
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;match-multiline LDA ?&no-match ( are we in multi-line mode? )
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DUP2 #0001 SUB2 LDA #0a EQU ,&at-start JCN ( just after newline? )
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DUP2 #0001 SUB2 LDA #0a EQU ?&at-start ( just after newline? )
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&no-match POP2r POP2 ;goto-backtrack JMP2 ( clear stacks and backtrack )
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&no-match POP2r POP2 !goto-backtrack ( clear stacks and backtrack )
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&at-start STH2r ;goto-next JMP2 ( go to next without advancing )
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&at-start STH2r !goto-next ( go to next without advancing )
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( hande dollar -- match string end (or possibly before newline) without advancing )
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( hande dollar -- match string end (or possibly before newline) without advancing )
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@do-dollar ( str* regex* -> bool^ )
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@do-dollar ( str* regex* -> bool^ )
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INC2 LDA2 STH2 ( load and stash next )
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INC2 LDA2 STH2 ( load and stash next )
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LDAk #00 EQU ,&at-end JCN ( at string end? )
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LDAk #00 EQU ?&at-end ( at string end? )
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;match-multiline LDA ,&no-match JCN ( are we in multi-line mode? )
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;match-multiline LDA ?&no-match ( are we in multi-line mode? )
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LDAk #0a EQU ,&at-end JCN ( at newline? )
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LDAk #0a EQU ?&at-end ( at newline? )
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&no-match POP2r POP2 ;goto-backtrack JMP2 ( clear stacks and backtrack )
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&no-match POP2r POP2 !goto-backtrack ( clear stacks and backtrack )
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&at-end STH2r ;goto-next JMP2 ( go to next without advancing )
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&at-end STH2r !goto-next ( go to next without advancing )
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( handle literal -- match one specific character )
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( handle literal -- match one specific character )
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@do-literal ( str* regex* -> bool^ )
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@do-literal ( str* regex* -> bool^ )
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@ -251,23 +251,23 @@
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LDAk STH ( store c )
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LDAk STH ( store c )
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INC2 LDA2 STH2 ROTr ( store next, move c to top )
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INC2 LDA2 STH2 ROTr ( store next, move c to top )
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LDAk
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LDAk
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STHr EQU ,&matches JCN ( do we match this char? )
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STHr EQU ?&matches ( do we match this char? )
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POP2r POP2 ;goto-backtrack JMP2 ( no, clear stacks and backtrack )
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POP2r POP2 !goto-backtrack ( no, clear stacks and backtrack )
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&matches
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&matches
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INC2 STH2r ;goto-next JMP2 ( yes, inc s, restore and jump )
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INC2 STH2r !goto-next ( 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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( handle or -- try the left branch but backtrack to the right if needed )
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( )
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( )
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( this also handles asteration, since it ends up having the same structure )
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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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@do-or ( str* regex* -> bool^ )
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INC2 OVR2 OVR2 #0002 ADD2 ( s r+1 s r+3 )
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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 push4 ( save (s, right) in the stack for possible backtracking )
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LDA2 ;loop JMP2 ( continue on left branch )
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LDA2 !loop ( continue on left branch )
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@matches-cls ( str* regex* -> bool^ )
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@matches-cls ( str* regex* -> bool^ )
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OVR2 LDA ,¬-null JCN
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OVR2 LDA ?¬-null
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( needs to have a character to match )
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( needs to have a character to match )
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POP2 POP2 ;goto-backtrack JMP2
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POP2 POP2 !goto-backtrack
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¬-null
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¬-null
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DUP2 INC2 LDA2 STH2 ( str regex [next] )
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DUP2 INC2 LDA2 STH2 ( str regex [next] )
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OVR2 INC2 STH2 ( str regex [str+1 next] )
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OVR2 INC2 STH2 ( str regex [str+1 next] )
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@ -275,24 +275,24 @@
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#0003 ADD2 LDAk #00 SWP #0002 MUL2 ( r+3 len*2 [c str+1 next] )
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#0003 ADD2 LDAk #00 SWP #0002 MUL2 ( r+3 len*2 [c str+1 next] )
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SWP2 INC2 STH2k ADD2 STH2r ( r+4+len*2 r+4 [c str+1 next] )
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SWP2 INC2 STH2k ADD2 STH2r ( r+4+len*2 r+4 [c str+1 next] )
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&loop ( limit addr [c str+1 next] )
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&loop ( limit addr [c str+1 next] )
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EQU2k ,&missing JCN
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EQU2k ?&missing
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LDAk STHkr GTH ,&next1 JCN INC2
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LDAk STHkr GTH ?&next1 INC2
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LDAk STHkr LTH ,&next2 JCN ,&found JMP
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LDAk STHkr LTH ?&next2 !&found
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&next1 INC2
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&next1 INC2
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&next2 INC2 ,&loop JMP
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&next2 INC2 !&loop
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&missing POP2 POP2 POPr ,&negated LDR ,&match JCN
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&missing POP2 POP2 POPr ,&negated LDR ?&match
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&no-match POP2r POP2r ;goto-backtrack JMP2
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&no-match POP2r POP2r !goto-backtrack
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&found POP2 POP2 POPr ,&negated LDR ,&no-match JCN
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&found POP2 POP2 POPr ,&negated LDR ?&no-match
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&match STH2r STH2r ;goto-next JMP2
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&match STH2r STH2r !goto-next
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[ &negated $1 ]
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[ &negated $1 ]
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( )
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( )
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@do-ccls ( str* regex* -> bool^ )
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@do-ccls ( str* regex* -> bool^ )
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#00 ,matches-cls/negated STR ,matches-cls JMP
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#00 ,matches-cls/negated STR !matches-cls
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( )
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( )
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@do-ncls ( str* regex* -> bool^ )
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@do-ncls ( str* regex* -> bool^ )
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#01 ,matches-cls/negated STR ,matches-cls JMP
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#01 ,matches-cls/negated STR !matches-cls
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( REGEX PARSING )
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( REGEX PARSING )
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@ -325,9 +325,9 @@
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@read ( -> c^ )
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@read ( -> c^ )
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;pos LDA2k ( pos s )
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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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LDAk STHk #00 EQU ( pos s c=0 [c] )
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,&is-eof JCN ( pos s [c] )
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?&is-eof ( pos s [c] )
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INC2 ( pos s+1 [c] )
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INC2 ( pos s+1 [c] )
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SWP2 STA2 ,&return JMP ( [c] )
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SWP2 STA2 !&return ( [c] )
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&is-eof POP2 POP2
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&is-eof POP2 POP2
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&return STHr ( c )
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&return STHr ( c )
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JMP2r
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JMP2r
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@compile ( expr* -> regex* )
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@compile ( expr* -> regex* )
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;pos STA2
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;pos STA2
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#0000 ;parens STA2
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#0000 ;parens STA2
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;rx-reset JSR2
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rx-reset
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;compile-region JMP2
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!compile-region
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( the basic strategy here is to build a stack of non-or )
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( the basic strategy here is to build a stack of non-or )
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( expressions to be joined together at the end of the )
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( expressions to be joined together at the end of the )
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( by #ffff #ffff. above that we start with #0000 #0000 )
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( by #ffff #ffff. above that we start with #0000 #0000 )
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( to signal an empty node. )
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( to signal an empty node. )
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@compile-region ( -> r2* )
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@compile-region ( -> r2* )
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#ffff #ffff ;push4 JSR2 ( stack delimiter )
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#ffff #ffff push4 ( stack delimiter )
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#0000 #0000 ;push4 JSR2 ( stack frame start )
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#0000 #0000 push4 ( stack frame start )
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@compile-region-loop
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@compile-region-loop
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;read JSR2
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read
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DUP #00 EQU ;c-done JCN2
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DUP #00 EQU ?c-done
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DUP LIT "| EQU ;c-or JCN2
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DUP LIT "| EQU ?c-or
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DUP LIT ". EQU ;c-dot JCN2
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DUP LIT ". EQU ?c-dot
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DUP LIT "^ EQU ;c-caret JCN2
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DUP LIT "^ EQU ?c-caret
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DUP LIT "$ EQU ;c-dollar JCN2
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DUP LIT "$ EQU ?c-dollar
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DUP LIT "( EQU ;c-lpar JCN2
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DUP LIT "( EQU ?c-lpar
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DUP LIT ") EQU ;c-rpar JCN2
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DUP LIT ") EQU ?c-rpar
|
||||||
DUP LIT "[ EQU ;c-lbrk JCN2
|
DUP LIT "[ EQU ?c-lbrk
|
||||||
DUP LIT "] EQU ;c-rbrk JCN2
|
DUP LIT "] EQU ?c-rbrk
|
||||||
DUP LIT "\ EQU ;c-esc JCN2
|
DUP LIT "\ EQU ?c-esc
|
||||||
DUP LIT "* EQU ;c-star JCN2
|
DUP LIT "* EQU ?c-star
|
||||||
DUP LIT "+ EQU ;c-plus JCN2
|
DUP LIT "+ EQU ?c-plus
|
||||||
DUP LIT "? EQU ;c-qmark JCN2
|
DUP LIT "? EQU ?c-qmark
|
||||||
;c-char JMP2
|
!c-char
|
||||||
|
|
||||||
( either finalize the given r0/r1 or else wrap it in )
|
( either finalize the given r0/r1 or else wrap it in )
|
||||||
( a star node if a star is coming up next. )
|
( a star node if a star is coming up next. )
|
||||||
|
@ -410,14 +410,14 @@
|
||||||
( we use this look-ahead approach rather than compiling )
|
( we use this look-ahead approach rather than compiling )
|
||||||
( star nodes directly since the implementation is simpler. )
|
( star nodes directly since the implementation is simpler. )
|
||||||
@c-peek-and-finalize ( r0* r1* -> r2* )
|
@c-peek-and-finalize ( r0* r1* -> r2* )
|
||||||
;peek-to-star JSR2 ( r0 r1 next-is-star? ) ,&next-is-star JCN
|
peek-to-star ( r0 r1 next-is-star? ) ?&next-is-star
|
||||||
;peek-to-plus JSR2 ( r0 r1 next-is-plus? ) ,&next-is-plus JCN
|
peek-to-plus ( r0 r1 next-is-plus? ) ?&next-is-plus
|
||||||
;peek-to-qmark JSR2 ( r0 r1 next-is-qmark? ) ,&next-is-qmark JCN
|
peek-to-qmark ( r0 r1 next-is-qmark? ) ?&next-is-qmark
|
||||||
,&finally JMP ( r0 r1 )
|
!&finally ( r0 r1 )
|
||||||
&next-is-star ;skip JSR2 POP2 ;alloc-star JSR2 DUP2 ,&finally JMP
|
&next-is-star skip POP2 alloc-star DUP2 !&finally
|
||||||
&next-is-plus ;skip JSR2 POP2 ;alloc-plus JSR2 DUP2 ,&finally JMP
|
&next-is-plus skip POP2 alloc-plus DUP2 !&finally
|
||||||
&next-is-qmark ;skip JSR2 POP2 ;alloc-qmark JSR2 DUP2 ,&finally JMP
|
&next-is-qmark skip POP2 alloc-qmark DUP2 !&finally
|
||||||
&finally ;push-next JSR2 ;compile-region-loop JMP2
|
&finally push-next !compile-region-loop
|
||||||
|
|
||||||
( called when we reach EOF of the input string )
|
( called when we reach EOF of the input string )
|
||||||
( )
|
( )
|
||||||
|
@ -427,9 +427,9 @@
|
||||||
( this is where we detect unclosed parenthesis. )
|
( this is where we detect unclosed parenthesis. )
|
||||||
@c-done ( c^ -> r2* )
|
@c-done ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
;parens LDA2 #0000 GTH2 ,&mismatched-parens JCN
|
;parens LDA2 #0000 GTH2 ?&mismatched-parens
|
||||||
;unroll-stack JSR2 POP2 JMP2r
|
unroll-stack POP2 JMP2r
|
||||||
&mismatched-parens ;mismatched-parens ;error!! JSR2
|
&mismatched-parens ;mismatched-parens errorm
|
||||||
|
|
||||||
( called when we read "|" )
|
( called when we read "|" )
|
||||||
( )
|
( )
|
||||||
|
@ -437,8 +437,8 @@
|
||||||
( we just start a new stack frame and continue. )
|
( we just start a new stack frame and continue. )
|
||||||
@c-or ( c^ -> r2* )
|
@c-or ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
#0000 #0000 ;push4 JSR2
|
#0000 #0000 push4
|
||||||
;compile-region-loop JMP2
|
!compile-region-loop
|
||||||
|
|
||||||
( called when we read left parenthesis )
|
( called when we read left parenthesis )
|
||||||
( )
|
( )
|
||||||
|
@ -450,7 +450,7 @@
|
||||||
@c-lpar ( c^ -> r2* )
|
@c-lpar ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
;parens LDA2 INC2 ;parens STA2 ( parens++ )
|
;parens LDA2 INC2 ;parens STA2 ( parens++ )
|
||||||
;compile-region JMP2
|
!compile-region
|
||||||
|
|
||||||
( called when we read right parenthesis )
|
( called when we read right parenthesis )
|
||||||
( )
|
( )
|
||||||
|
@ -463,34 +463,34 @@
|
||||||
( 5. continue parsing )
|
( 5. continue parsing )
|
||||||
@c-rpar ( c^ -> r2* )
|
@c-rpar ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
;parens LDA2 #0000 EQU2 ,&mismatched-parens JCN
|
;parens LDA2 #0000 EQU2 ?&mismatched-parens
|
||||||
;parens LDA2 #0001 SUB2 ;parens STA2 ( parens-- )
|
;parens LDA2 #0001 SUB2 ;parens STA2 ( parens-- )
|
||||||
;unroll-stack JSR2
|
unroll-stack
|
||||||
;c-peek-and-finalize JMP2
|
!c-peek-and-finalize
|
||||||
&mismatched-parens ;mismatched-parens ;error!! JSR2
|
&mismatched-parens ;mismatched-parens errorm
|
||||||
|
|
||||||
( doesn't support weird things like []abc] or [-abc] or similar. )
|
( doesn't support weird things like []abc] or [-abc] or similar. )
|
||||||
( doesn't currently handle "special" escapes such as \n )
|
( doesn't currently handle "special" escapes such as \n )
|
||||||
@c-lbrk ( c^ -> r2* )
|
@c-lbrk ( c^ -> r2* )
|
||||||
POP LITr 00 ;pos LDA2 ( pos [0] )
|
POP LITr 00 ;pos LDA2 ( pos [0] )
|
||||||
LDAk LIT "^ NEQ ,&normal JCN INCr INC2 ( pos [negated?^] )
|
LDAk LIT "^ NEQ ?&normal INCr INC2 ( pos [negated?^] )
|
||||||
&normal
|
&normal
|
||||||
#0a STHr ADD ( src* type^ )
|
#0a STHr ADD ( src* type^ )
|
||||||
;arena-pos LDA2 STH2k ( src* type^ dst* [dst*] )
|
;arena-pos LDA2 STH2k ( src* type^ dst* [dst*] )
|
||||||
STA LIT2r 0004 ADD2r ( src* [dst+4] )
|
STA LIT2r 0004 ADD2r ( src* [dst+4] )
|
||||||
&left-parse ( src* [dst*] )
|
&left-parse ( src* [dst*] )
|
||||||
LDAk LIT "] EQU ,&done JCN
|
LDAk LIT "] EQU ?&done
|
||||||
LDAk LIT "- EQU ,&error JCN
|
LDAk LIT "- EQU ?&error
|
||||||
LDAk LIT "\ NEQ ,&left JCN INC2
|
LDAk LIT "\ NEQ ?&left INC2
|
||||||
&left
|
&left
|
||||||
LDAk STH2kr STA INC2r
|
LDAk STH2kr STA INC2r
|
||||||
DUP2 INC2 LDA LIT "- NEQ ,&pre-right JCN INC2 INC2
|
DUP2 INC2 LDA LIT "- NEQ ?&pre-right INC2 INC2
|
||||||
LDAk LIT "] EQU ,&error JCN
|
LDAk LIT "] EQU ?&error
|
||||||
LDAk LIT "- EQU ,&error JCN
|
LDAk LIT "- EQU ?&error
|
||||||
&pre-right
|
&pre-right
|
||||||
LDAk LIT "\ NEQ ,&right JCN INC2
|
LDAk LIT "\ NEQ ?&right INC2
|
||||||
&right
|
&right
|
||||||
LDAk STH2kr STA INC2 INC2r ,&left-parse JMP
|
LDAk STH2kr STA INC2 INC2r !&left-parse
|
||||||
&done ( src* [dst*] )
|
&done ( src* [dst*] )
|
||||||
INC2 ;pos STA2 STH2r ( dst* )
|
INC2 ;pos STA2 STH2r ( dst* )
|
||||||
DUP2 ;arena-pos LDA2 ( dst dst a )
|
DUP2 ;arena-pos LDA2 ( dst dst a )
|
||||||
|
@ -498,7 +498,7 @@
|
||||||
;arena-pos LDA2 STH2k #0003 ADD2 STA ( dst [a] )
|
;arena-pos LDA2 STH2k #0003 ADD2 STA ( dst [a] )
|
||||||
;arena-pos STA2 STH2r ( a )
|
;arena-pos STA2 STH2r ( a )
|
||||||
#0000 OVR2 INC2 STA2 ( a )
|
#0000 OVR2 INC2 STA2 ( a )
|
||||||
DUP2 ;c-peek-and-finalize JMP2
|
DUP2 !c-peek-and-finalize
|
||||||
&error
|
&error
|
||||||
#abcd #0000 DIV ( TODO error here )
|
#abcd #0000 DIV ( TODO error here )
|
||||||
|
|
||||||
|
@ -511,24 +511,24 @@
|
||||||
( allocates a dot-node and continues. )
|
( allocates a dot-node and continues. )
|
||||||
@c-dot ( c^ -> r2* )
|
@c-dot ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
#02 ;alloc3 JSR2
|
#02 alloc3
|
||||||
DUP2 ;c-peek-and-finalize JMP2
|
DUP2 !c-peek-and-finalize
|
||||||
|
|
||||||
( called when we read "^" )
|
( called when we read "^" )
|
||||||
( )
|
( )
|
||||||
( allocates a caret-node and continues. )
|
( allocates a caret-node and continues. )
|
||||||
@c-caret ( c^ -> r2* )
|
@c-caret ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
#06 ;alloc3 JSR2
|
#06 alloc3
|
||||||
DUP2 ;c-peek-and-finalize JMP2
|
DUP2 !c-peek-and-finalize
|
||||||
|
|
||||||
( called when we read "$" )
|
( called when we read "$" )
|
||||||
( )
|
( )
|
||||||
( allocates a dollar-node and continues. )
|
( allocates a dollar-node and continues. )
|
||||||
@c-dollar ( c^ -> r2* )
|
@c-dollar ( c^ -> r2* )
|
||||||
POP
|
POP
|
||||||
#07 ;alloc3 JSR2
|
#07 alloc3
|
||||||
DUP2 ;c-peek-and-finalize JMP2
|
DUP2 !c-peek-and-finalize
|
||||||
|
|
||||||
( called when we read "\" )
|
( called when we read "\" )
|
||||||
( )
|
( )
|
||||||
|
@ -536,50 +536,50 @@
|
||||||
( )
|
( )
|
||||||
( otherwise, allocates a literal of the next character. )
|
( otherwise, allocates a literal of the next character. )
|
||||||
@c-esc ( c^ -> r2* )
|
@c-esc ( c^ -> r2* )
|
||||||
POP ;read JSR2
|
POP read
|
||||||
DUP LIT "a EQU ,&bel JCN
|
DUP LIT "a EQU ?&bel
|
||||||
DUP LIT "b EQU ,&bs JCN
|
DUP LIT "b EQU ?&bs
|
||||||
DUP LIT "t EQU ,&tab JCN
|
DUP LIT "t EQU ?&tab
|
||||||
DUP LIT "n EQU ,&nl JCN
|
DUP LIT "n EQU ?&nl
|
||||||
DUP LIT "v EQU ,&vtab JCN
|
DUP LIT "v EQU ?&vtab
|
||||||
DUP LIT "f EQU ,&ff JCN
|
DUP LIT "f EQU ?&ff
|
||||||
DUP LIT "r EQU ,&cr JCN
|
DUP LIT "r EQU ?&cr
|
||||||
&default ;c-char JMP2
|
&default !c-char
|
||||||
&bel POP #07 ,&default JMP
|
&bel POP #07 !&default
|
||||||
&bs POP #08 ,&default JMP
|
&bs POP #08 !&default
|
||||||
&tab POP #09 ,&default JMP
|
&tab POP #09 !&default
|
||||||
&nl POP #0a ,&default JMP
|
&nl POP #0a !&default
|
||||||
&vtab POP #0b ,&default JMP
|
&vtab POP #0b !&default
|
||||||
&ff POP #0c ,&default JMP
|
&ff POP #0c !&default
|
||||||
&cr POP #0d ,&default JMP
|
&cr POP #0d !&default
|
||||||
|
|
||||||
( called when we read any other character )
|
( called when we read any other character )
|
||||||
( )
|
( )
|
||||||
( allocates a literal-node and continues. )
|
( allocates a literal-node and continues. )
|
||||||
@c-char ( c^ -> r2* )
|
@c-char ( c^ -> r2* )
|
||||||
;alloc-lit JSR2 ( lit )
|
alloc-lit ( lit )
|
||||||
DUP2 ;c-peek-and-finalize JMP2
|
DUP2 !c-peek-and-finalize
|
||||||
|
|
||||||
( called if we parse a "*" )
|
( called if we parse a "*" )
|
||||||
( )
|
( )
|
||||||
( actually calling this means the code broke an invariant somewhere. )
|
( actually calling this means the code broke an invariant somewhere. )
|
||||||
@c-star ( c^ -> regex* )
|
@c-star ( c^ -> regex* )
|
||||||
POP
|
POP
|
||||||
;star-invariant ;error!! JSR2
|
;star-invariant errorm
|
||||||
|
|
||||||
( called if we parse a "+" )
|
( called if we parse a "+" )
|
||||||
( )
|
( )
|
||||||
( actually calling this means the code broke an invariant somewhere. )
|
( actually calling this means the code broke an invariant somewhere. )
|
||||||
@c-plus ( c^ -> regex* )
|
@c-plus ( c^ -> regex* )
|
||||||
POP
|
POP
|
||||||
;plus-invariant ;error!! JSR2
|
;plus-invariant errorm
|
||||||
|
|
||||||
( called if we parse a "?" )
|
( called if we parse a "?" )
|
||||||
( )
|
( )
|
||||||
( actually calling this means the code broke an invariant somewhere. )
|
( actually calling this means the code broke an invariant somewhere. )
|
||||||
@c-qmark ( c^ -> regex* )
|
@c-qmark ( c^ -> regex* )
|
||||||
POP
|
POP
|
||||||
;qmark-invariant ;error!! JSR2
|
;qmark-invariant errorm
|
||||||
|
|
||||||
( ALLOCATING REGEX NDOES )
|
( ALLOCATING REGEX NDOES )
|
||||||
|
|
||||||
|
@ -589,51 +589,51 @@
|
||||||
|
|
||||||
@alloc3 ( mode^ -> r* )
|
@alloc3 ( mode^ -> r* )
|
||||||
#0000 ROT ( 00 00 mode^ )
|
#0000 ROT ( 00 00 mode^ )
|
||||||
#03 ;alloc JSR2 ( 00 00 mode^ addr* )
|
#03 alloc ( 00 00 mode^ addr* )
|
||||||
STH2k STA ( addr <- mode )
|
STH2k STA ( addr <- mode )
|
||||||
STH2kr INC2 STA2 ( addr+1 <- 0000 )
|
STH2kr INC2 STA2 ( addr+1 <- 0000 )
|
||||||
STH2r JMP2r ( return addr )
|
STH2r JMP2r ( return addr )
|
||||||
|
|
||||||
@alloc-empty ( -> r* )
|
@alloc-empty ( -> r* )
|
||||||
#01 ;alloc3 JMP2
|
#01 !alloc3
|
||||||
|
|
||||||
@alloc-lit ( c^ -> r* )
|
@alloc-lit ( c^ -> r* )
|
||||||
#03 #0000 SWP2 ( 0000 c^ 03 )
|
#03 #0000 SWP2 ( 0000 c^ 03 )
|
||||||
#04 ;alloc JSR2 ( 0000 c^ 03 addr* )
|
#04 alloc ( 0000 c^ 03 addr* )
|
||||||
STH2k STA ( addr <- 03 )
|
STH2k STA ( addr <- 03 )
|
||||||
STH2kr INC2 STA ( addr+1 <- c )
|
STH2kr INC2 STA ( addr+1 <- c )
|
||||||
STH2kr #0002 ADD2 STA2 ( addr+2 <- 0000 )
|
STH2kr #0002 ADD2 STA2 ( addr+2 <- 0000 )
|
||||||
STH2r JMP2r ( return addr )
|
STH2r JMP2r ( return addr )
|
||||||
|
|
||||||
@alloc-or ( right* left* -> r* )
|
@alloc-or ( right* left* -> r* )
|
||||||
#05 ;alloc JSR2 STH2 ( r l [x] )
|
#05 alloc STH2 ( r l [x] )
|
||||||
#04 STH2kr STA ( r l [x] )
|
#04 STH2kr STA ( r l [x] )
|
||||||
STH2kr INC2 STA2 ( r [x] )
|
STH2kr INC2 STA2 ( r [x] )
|
||||||
STH2kr #0003 ADD2 STA2 ( [x] )
|
STH2kr #0003 ADD2 STA2 ( [x] )
|
||||||
STH2r JMP2r
|
STH2r JMP2r
|
||||||
|
|
||||||
@alloc-star ( expr* -> r* )
|
@alloc-star ( expr* -> r* )
|
||||||
#05 ;alloc JSR2 STH2 ( expr [r] )
|
#05 alloc STH2 ( expr [r] )
|
||||||
#05 STH2kr STA ( expr [r] )
|
#05 STH2kr STA ( expr [r] )
|
||||||
DUP2 STH2kr INC2 STA2 ( expr [r] )
|
DUP2 STH2kr INC2 STA2 ( expr [r] )
|
||||||
#0000 STH2kr #0003 ADD2 STA2 ( expr [r] )
|
#0000 STH2kr #0003 ADD2 STA2 ( expr [r] )
|
||||||
STH2kr SWP2 ( r expr [r] )
|
STH2kr SWP2 ( r expr [r] )
|
||||||
;set-next JSR2 ( [r] )
|
set-next ( [r] )
|
||||||
STH2r JMP2r
|
STH2r JMP2r
|
||||||
|
|
||||||
@alloc-plus ( expr* -> r* )
|
@alloc-plus ( expr* -> r* )
|
||||||
#05 ;alloc JSR2 STH2 ( expr [r] )
|
#05 alloc STH2 ( expr [r] )
|
||||||
#05 STH2kr STA ( expr [r] )
|
#05 STH2kr STA ( expr [r] )
|
||||||
DUP2 STH2kr INC2 STA2 ( expr [r] )
|
DUP2 STH2kr INC2 STA2 ( expr [r] )
|
||||||
#0000 STH2kr #0003 ADD2 STA2 ( expr [r] )
|
#0000 STH2kr #0003 ADD2 STA2 ( expr [r] )
|
||||||
STH2r SWP2 STH2k ( r expr [expr] )
|
STH2r SWP2 STH2k ( r expr [expr] )
|
||||||
;set-next JSR2 ( [expr] )
|
set-next ( [expr] )
|
||||||
STH2r JMP2r
|
STH2r JMP2r
|
||||||
|
|
||||||
@alloc-qmark ( expr* -> r* )
|
@alloc-qmark ( expr* -> r* )
|
||||||
;alloc-empty JSR2 STH2k ( expr e [e] )
|
alloc-empty STH2k ( expr e [e] )
|
||||||
OVR2 ;set-next JSR2 ( expr [e] )
|
OVR2 set-next ( expr [e] )
|
||||||
#05 ;alloc JSR2 STH2 ( expr [r e] )
|
#05 alloc STH2 ( expr [r e] )
|
||||||
#04 STH2kr STA ( expr [r e] )
|
#04 STH2kr STA ( expr [r e] )
|
||||||
STH2kr INC2 STA2 ( [r e] )
|
STH2kr INC2 STA2 ( [r e] )
|
||||||
SWP2r STH2r STH2kr ( e r [r] )
|
SWP2r STH2r STH2kr ( e r [r] )
|
||||||
|
@ -642,7 +642,7 @@
|
||||||
|
|
||||||
( if r is 0000, allocate an empty node )
|
( if r is 0000, allocate an empty node )
|
||||||
@alloc-if-null ( r* -> r2* )
|
@alloc-if-null ( r* -> r2* )
|
||||||
ORAk ,&return JCN POP2 ;alloc-empty JSR2 &return JMP2r
|
ORAk ?&return POP2 alloc-empty &return JMP2r
|
||||||
|
|
||||||
( unroll one region of the parsing stack, returning )
|
( unroll one region of the parsing stack, returning )
|
||||||
( a single node consisting of an alternation of )
|
( a single node consisting of an alternation of )
|
||||||
|
@ -651,23 +651,23 @@
|
||||||
( this unrolls until it hits #ffff #ffff, which it )
|
( this unrolls until it hits #ffff #ffff, which it )
|
||||||
( also removes from the stack. )
|
( also removes from the stack. )
|
||||||
@unroll-stack ( -> start* end* )
|
@unroll-stack ( -> start* end* )
|
||||||
;pop4 JSR2 STH2 ( r )
|
pop4 STH2 ( r )
|
||||||
#00 STH ( count items in stack frame )
|
#00 STH ( count items in stack frame )
|
||||||
;alloc-if-null JSR2 ( replace 0000 with empty )
|
alloc-if-null ( replace 0000 with empty )
|
||||||
&loop ( r* )
|
&loop ( r* )
|
||||||
;pop4 JSR2 POP2 ( r x )
|
pop4 POP2 ( r x )
|
||||||
DUP2 #ffff EQU2 ( r x x-is-end? ) ,&done JCN
|
DUP2 #ffff EQU2 ( r x x-is-end? ) ?&done
|
||||||
INCr ( items++ )
|
INCr ( items++ )
|
||||||
;alloc-or JSR2 ( r|x ) ,&loop JMP
|
alloc-or ( r|x ) !&loop
|
||||||
&done
|
&done
|
||||||
( r ffff )
|
( r ffff )
|
||||||
POP2
|
POP2
|
||||||
STHr ,&is-or JCN
|
STHr ?&is-or
|
||||||
STH2r JMP2r
|
STH2r JMP2r
|
||||||
&is-or
|
&is-or
|
||||||
POP2r
|
POP2r
|
||||||
;alloc-empty JSR2 OVR2 OVR2 SWP2 ( r empty empty r )
|
alloc-empty OVR2 OVR2 SWP2 ( r empty empty r )
|
||||||
;set-next-or JSR2
|
set-next-or
|
||||||
JMP2r
|
JMP2r
|
||||||
|
|
||||||
( add r to the top of the stock. )
|
( add r to the top of the stock. )
|
||||||
|
@ -675,21 +675,21 @@
|
||||||
( in particular, this will write r into tail.next )
|
( in particular, this will write r into tail.next )
|
||||||
( before replacing tail with r. )
|
( before replacing tail with r. )
|
||||||
@push-next ( r0 r1 -> )
|
@push-next ( r0 r1 -> )
|
||||||
;pop4 JSR2 ( r0 r1 x0 x1 )
|
pop4 ( r0 r1 x0 x1 )
|
||||||
DUP2 #0000 EQU2 ( r0 r1 x0 x1 x1=0? ) ,&is-zero JCN
|
DUP2 #0000 EQU2 ( r0 r1 x0 x1 x1=0? ) ?&is-zero
|
||||||
STH2 ROT2 STH2r ( r1 x0 r0 x1 )
|
STH2 ROT2 STH2r ( r1 x0 r0 x1 )
|
||||||
;set-next JSR2 SWP2 ( x0 r1 )
|
set-next SWP2 ( x0 r1 )
|
||||||
;push4 JSR2
|
push4
|
||||||
JMP2r
|
JMP2r
|
||||||
&is-zero POP2 POP2 ;push4 JMP2
|
&is-zero POP2 POP2 !push4
|
||||||
|
|
||||||
( load the given address: )
|
( load the given address: )
|
||||||
( )
|
( )
|
||||||
( 1. if it points to 0000, update it to target )
|
( 1. if it points to 0000, update it to target )
|
||||||
( 2. otherwise, call set-next on it )
|
( 2. otherwise, call set-next on it )
|
||||||
@set-next-addr ( target* addr* -> )
|
@set-next-addr ( target* addr* -> )
|
||||||
LDA2k #0000 EQU2 ( target addr addr=0? ) ,&is-zero JCN
|
LDA2k #0000 EQU2 ( target addr addr=0? ) ?&is-zero
|
||||||
LDA2 ;set-next JMP2
|
LDA2 !set-next
|
||||||
&is-zero STA2 JMP2r
|
&is-zero STA2 JMP2r
|
||||||
|
|
||||||
( set regex.next to target )
|
( set regex.next to target )
|
||||||
|
@ -703,18 +703,18 @@
|
||||||
( back up we only bother taking the left branch. otherwise )
|
( back up we only bother taking the left branch. otherwise )
|
||||||
( you can end up double-appending things. )
|
( you can end up double-appending things. )
|
||||||
@set-next ( target* regex* -> )
|
@set-next ( target* regex* -> )
|
||||||
LDAk #01 LTH ,&unknown JCN
|
LDAk #01 LTH ?&unknown
|
||||||
LDAk #0b GTH ,&unknown JCN
|
LDAk #0b GTH ?&unknown
|
||||||
LDAk #09 GTH ,&cc JCN
|
LDAk #09 GTH ?&cc
|
||||||
LDAk #00 SWP ;rx-node-sizes ADD2
|
LDAk #00 SWP ;rx-node-sizes ADD2
|
||||||
LDA #00 SWP ADD2 #0002 SUB2
|
LDA #00 SWP ADD2 #0002 SUB2
|
||||||
;set-next-addr JMP2
|
!set-next-addr
|
||||||
&cc INC2 ;set-next-addr JMP2
|
&cc INC2 !set-next-addr
|
||||||
&unknown LDAk #ee ;unknown-node-type ;error!! JSR2
|
&unknown LDAk #ee ;unknown-node-type errorm
|
||||||
|
|
||||||
@set-next-or-addr ( target* addr* -> )
|
@set-next-or-addr ( target* addr* -> )
|
||||||
LDA2k #0000 EQU2 ( target addr addr=0? ) ,&is-zero JCN
|
LDA2k #0000 EQU2 ( target addr addr=0? ) ?&is-zero
|
||||||
LDA2 ;set-next-or JMP2
|
LDA2 !set-next-or
|
||||||
&is-zero STA2 JMP2r
|
&is-zero STA2 JMP2r
|
||||||
|
|
||||||
( this is used when first building or-nodes )
|
( this is used when first building or-nodes )
|
||||||
|
@ -722,10 +722,10 @@
|
||||||
( [x1, [x2, [x3, ..., [xm, xn]]]] )
|
( [x1, [x2, [x3, ..., [xm, xn]]]] )
|
||||||
( so we recurse on the right side but not the left. )
|
( so we recurse on the right side but not the left. )
|
||||||
@set-next-or ( target* regex* -> )
|
@set-next-or ( target* regex* -> )
|
||||||
LDAk #04 NEQ ,&!4 JCN
|
LDAk #04 NEQ ?&!4
|
||||||
OVR2 OVR2 INC2 ;set-next-addr JSR2
|
OVR2 OVR2 INC2 set-next-addr
|
||||||
#0003 ADD2 ;set-next-or-addr JMP2
|
#0003 ADD2 !set-next-or-addr
|
||||||
&!4 ;set-next JMP2
|
&!4 !set-next
|
||||||
|
|
||||||
( STACK OPERATIONS )
|
( STACK OPERATIONS )
|
||||||
( )
|
( )
|
||||||
|
@ -741,7 +741,7 @@
|
||||||
|
|
||||||
( push 4 bytes onto the stack )
|
( push 4 bytes onto the stack )
|
||||||
@push4 ( str* regex* -> )
|
@push4 ( str* regex* -> )
|
||||||
;assert-stack-avail JSR2 ( check for space )
|
assert-stack-avail ( check for space )
|
||||||
;stack-pos LDA2 #0002 ADD2 STA2 ( cell[2:3] <- regex )
|
;stack-pos LDA2 #0002 ADD2 STA2 ( cell[2:3] <- regex )
|
||||||
;stack-pos LDA2 STA2 ( cell[0:1] <- str )
|
;stack-pos LDA2 STA2 ( cell[0:1] <- str )
|
||||||
;stack-pos LDA2 #0004 ADD2 ;stack-pos STA2 ( pos += 4 )
|
;stack-pos LDA2 #0004 ADD2 ;stack-pos STA2 ( pos += 4 )
|
||||||
|
@ -749,7 +749,7 @@
|
||||||
|
|
||||||
( pop 4 bytes from the stack )
|
( pop 4 bytes from the stack )
|
||||||
@pop4 ( -> str* regex* )
|
@pop4 ( -> str* regex* )
|
||||||
;assert-stack-exist JSR2 ( check for space )
|
assert-stack-exist ( check for space )
|
||||||
;stack-pos LDA2 ( load stack-pos )
|
;stack-pos LDA2 ( load stack-pos )
|
||||||
#0002 SUB2 LDA2k STH2 ( pop and stash regex )
|
#0002 SUB2 LDA2k STH2 ( pop and stash regex )
|
||||||
#0002 SUB2 LDA2k STH2 ( pop and stash str )
|
#0002 SUB2 LDA2k STH2 ( pop and stash str )
|
||||||
|
@ -771,11 +771,11 @@
|
||||||
|
|
||||||
( error if stack is full )
|
( error if stack is full )
|
||||||
@assert-stack-avail ( -> )
|
@assert-stack-avail ( -> )
|
||||||
;stack-avail JSR2 ,&ok JCN ;stack-is-full ;error!! JSR2 &ok JMP2r
|
stack-avail ?&ok ;stack-is-full errorm &ok JMP2r
|
||||||
|
|
||||||
( error is stack is empty )
|
( error is stack is empty )
|
||||||
@assert-stack-exist ( -> )
|
@assert-stack-exist ( -> )
|
||||||
;stack-exist JSR2 ,&ok JCN ;stack-is-empty ;error!! JSR2 &ok JMP2r
|
stack-exist ?&ok ;stack-is-empty errorm &ok JMP2r
|
||||||
|
|
||||||
( stack-pos points to the next free stack position (or the top if full). )
|
( 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-pos :stack-bot ( the next position to insert at )
|
||||||
|
@ -810,10 +810,10 @@
|
||||||
#00 SWP ( size* )
|
#00 SWP ( size* )
|
||||||
;arena-pos LDA2 STH2k ADD2 ( pos+size* [pos] )
|
;arena-pos LDA2 STH2k ADD2 ( pos+size* [pos] )
|
||||||
DUP2 ;arena-top GTH2 ( pos+size pos+size>top? [pos] )
|
DUP2 ;arena-top GTH2 ( pos+size pos+size>top? [pos] )
|
||||||
,&error JCN ( pos+size [pos] )
|
?&error ( pos+size [pos] )
|
||||||
;arena-pos STA2 ( pos += size [pos] )
|
;arena-pos STA2 ( pos += size [pos] )
|
||||||
STH2r JMP2r ( pos )
|
STH2r JMP2r ( pos )
|
||||||
&error POP2 POP2r ;arena-is-full ;error!! JSR2
|
&error POP2 POP2r ;arena-is-full errorm
|
||||||
|
|
||||||
@arena-pos :arena-bot ( the next position to allocate )
|
@arena-pos :arena-bot ( the next position to allocate )
|
||||||
@arena-bot $400 @arena-top ( holds up to 1024 bytes )
|
@arena-bot $400 @arena-top ( holds up to 1024 bytes )
|
||||||
|
@ -870,7 +870,7 @@
|
||||||
|
|
||||||
@subgroup-start ( s* i^ -> )
|
@subgroup-start ( s* i^ -> )
|
||||||
;subgroup-pos LDA2 STH2k ( s* i^ pos* [pos*] )
|
;subgroup-pos LDA2 STH2k ( s* i^ pos* [pos*] )
|
||||||
;subgroup-top LTH2 ,&next JCN #0000 DIV ( too many subgroups )
|
;subgroup-top LTH2 ?&next #0000 DIV ( too many subgroups )
|
||||||
&next ( s* i^ [pos*] )
|
&next ( s* i^ [pos*] )
|
||||||
STH2kr STA
|
STH2kr STA
|
||||||
STH2r INC2 STA2
|
STH2r INC2 STA2
|
||||||
|
@ -878,9 +878,9 @@
|
||||||
|
|
||||||
@subgroup-finish ( s* i^ -> )
|
@subgroup-finish ( s* i^ -> )
|
||||||
;subgroup-pos LDA2 STH2k ( s* i^ pos* [pos*] )
|
;subgroup-pos LDA2 STH2k ( s* i^ pos* [pos*] )
|
||||||
;subgroup-top LTH2 ,&next JCN #0000 DIV ( too many subgroups )
|
;subgroup-top LTH2 ?&next #0000 DIV ( too many subgroups )
|
||||||
&next ( s* i^ [pos*] )
|
&next ( s* i^ [pos*] )
|
||||||
STH2kr LDA EQU ,&ok JCN #0000 DIV ( mismatched subgroups )
|
STH2kr LDA EQU ?&ok #0000 DIV ( mismatched subgroups )
|
||||||
&ok ( s* [pos*] )
|
&ok ( s* [pos*] )
|
||||||
STH2kr #0003 ADD2 STA2
|
STH2kr #0003 ADD2 STA2
|
||||||
STH2r #0005 ADD2 ;subgroup-pos STA2
|
STH2r #0005 ADD2 ;subgroup-pos STA2
|
||||||
|
@ -888,7 +888,7 @@
|
||||||
|
|
||||||
@subgroup-branch ( -> )
|
@subgroup-branch ( -> )
|
||||||
;subgroup-pos LDA2 STH2k ( pos* [pos*] )
|
;subgroup-pos LDA2 STH2k ( pos* [pos*] )
|
||||||
;subgroup-top LTH2 ,&next JCN #0000 DIV ( too many subgroups )
|
;subgroup-top LTH2 ?&next #0000 DIV ( too many subgroups )
|
||||||
&next
|
&next
|
||||||
#00 STH2kr STA ( [*pos] )
|
#00 STH2kr STA ( [*pos] )
|
||||||
STH2r #0005 ADD2 ;subgroup-pos STA2
|
STH2r #0005 ADD2 ;subgroup-pos STA2
|
||||||
|
@ -897,9 +897,9 @@
|
||||||
@subgroup-backtrack ( -> )
|
@subgroup-backtrack ( -> )
|
||||||
;subgroup-bot ;subgroup-pos LDA2 ( bot* pos* )
|
;subgroup-bot ;subgroup-pos LDA2 ( bot* pos* )
|
||||||
&loop ( bot* pos* )
|
&loop ( bot* pos* )
|
||||||
EQU2k ,&done JCN
|
EQU2k ?&done
|
||||||
LDAk #00 EQU ,&done JCN
|
LDAk #00 EQU ?&done
|
||||||
#0005 SUB2 ,&loop JMP
|
#0005 SUB2 !&loop
|
||||||
&done ( bot* pos* )
|
&done ( bot* pos* )
|
||||||
NIP2 ;subgroup-pos STA2
|
NIP2 ;subgroup-pos STA2
|
||||||
JMP2r
|
JMP2r
|
||||||
|
|
Loading…
Reference in New Issue