ref: b332e98485d1c22cb93f3302b83ead9e004d5160
dir: /lib/regex/compile.myr/
use std use "types" use "ranges" pkg regex = const parse : (re : byte[:] -> std.result(ast#, status)) const compile : (re : byte[:] -> std.result(regex#, status)) const dbgcompile : (re : byte[:] -> std.result(regex#, status)) const free : (re : regex# -> void) ;; type parseresult = union `Some ast# `None `Fail status ;; /* Compiles a pattern into a regex */ const compile = {pat -> regexcompile(std.mk([.pat = pat, .nmatch = 1]), 0) } const parse = {pat var re re = std.mk([.pat = pat, .nmatch = 1]) match regexparse(re) | `None: -> `std.Fail `Incomplete | `Fail f: -> `std.Fail f | `Some t: if re.pat.len > 0 -> `std.Fail `Incomplete else -> `std.Ok t ;; ;; } /* Compiles a pattern into a debug regex. This can be verbose. */ const dbgcompile = {pat var re re = std.mk([.pat = pat, .nmatch = 1, .debug = true]) -> regexcompile(re, 0) } /* compiles a pattern into an allocated regex */ const regexcompile = {re, id match regexparse(re) | `None: -> `std.Fail (`Incomplete) | `Fail f: -> `std.Fail f | `Some t: /* we can stop early if we get an incorrectly encoded char */ if re.pat.len > 0 astfree(t) -> `std.Fail (`Incomplete) ;; dump(re, t, 0) append(re, `Ilbra 0) gen(re, t) append(re, `Irbra 0) append(re, `Imatch id) idump(re) astfree(t) -> `std.Ok re ;; -> `std.Fail (`Noimpl) } const free = {re /* all the threads should be dead, so we shouldn't have to free any*/ std.slfree(re.prog) std.free(re) } /* generates bytecode from an AST */ const gen = {re, t match t# |`Alt (a, b): genalt(re, a, b) |`Cat (a, b): gen(re, a); gen(re, b) /* repetition */ |`Star a: genstar(re, a, false) |`Rstar a: genstar(re, a, true) |`Plus a: gen(re, a); genstar(re, a, false) |`Rplus a: gen(re, a); genstar(re, a, true) |`Quest a: genquest(re, a) /* end matches */ |`Chr c: genchar(re, c) |`Ranges sl: genranges(re, sl) /* meta */ |`Bol: append(re, `Ibol) |`Eol: append(re, `Ibol) |`Bow: append(re, `Ibow) |`Eow: append(re, `Ieow) |`Cap (m, a): append(re, `Ilbra m) gen(re, a) append(re, `Irbra m) ;; -> re.proglen } const genranges = {re, sl var lbuf : byte[4], hbuf : byte[4], boundbuf : byte[4] var lsz, hsz, bsz, i var rt : rangetrie# /* generate a trie of ranges */ rt = std.zalloc() for r in sl /* encode: lo => bounds[loidx] - 1 bounds[loidx] => bounds[loidx + 1] - 1 ... bounds[hiidx - 1] => hi */ lsz = std.encode(lbuf[:], r[0]) hsz = std.encode(hbuf[:], r[1]) for i = lsz; i < hsz; i++ bsz = bound(boundbuf[:], i, 0xff) rtinsert(rt, lbuf[:lsz], boundbuf[:bsz]) lsz = bound(lbuf[:], i + 1, 0x00) ;; rtinsert(rt, lbuf[:lsz], hbuf[:hsz]) ;; if re.debug rtdump(rt, 0) ;; rangegen(re, rt, rt.ranges, rt.link, rangeprogsize(rt) + re.proglen) rtfree(rt) -> re.proglen } const bound = {buf, len, fill var s if len == 1 buf[0] = 0x7f else s = len castto(byte) buf[0] = (0xff << (8 - s)) | (fill >> (s + 1)) for var i = 1; i < len; i++ buf[i] = 0x80 | (fill >> 2) ;; ;; -> len } type rangetrie = struct ranges : (byte, byte)[:] link : rangetrie#[:] end : bool ;; const rtdump = {rt, ind var l, h indent(ind) std.put("Range (end = {}) {{\n", rt.end) for var i = 0; i < rt.ranges.len; i++ indent(ind + 1) (l, h) = rt.ranges[i] std.put("0x{x}-0x{x}: \n", l, h) rtdump(rt.link[i], ind + 1) ;; indent(ind) std.put("}\n") } const indent = {ind for var i = 0; i < ind; i++ std.put("\t") ;; } const rtinsert = {rt, lo, hi var a, b var n std.assert(lo.len == hi.len, "range sizes differ") if lo.len == 0 rt.end = true -> void ;; n = rt.ranges.len if n == 0 std.slpush(&rt.ranges, (lo[0], hi[0])) std.slpush(&rt.link, std.zalloc()) else /* this is a safe way to compare because we know that ranges should always be coming in ordered. This means that equal values will be added one after the other. */ (a, b) = rt.ranges[n - 1] if a != lo[0] || b != hi[0] std.slpush(&rt.ranges, (lo[0], hi[0])) std.slpush(&rt.link, std.zalloc()) ;; ;; rtinsert(rt.link[rt.link.len - 1], lo[1:], hi[1:]) } const rtfree = {rt for l in rt.link rtfree(l) ;; std.slfree(rt.link) std.slfree(rt.ranges) std.free(rt) } const rangegen = {re, rt, ranges, links, end var alt, l0, l1, l2 var a, b var n n = ranges.len if n == 0 -> re.proglen elif n == 1 (a, b) = ranges[0] append(re, `Irange (a, b)) if links[0].end if links[0].ranges.len > 0 append(re, `Ifork (re.prog.len + 1, end)) else append(re, `Ijmp end) ;; ;; rangegen(re, links[0], links[0].ranges, links[0].link, end) else alt = re.proglen l0 = append(re, `Ifork (-1, -1)) l1 = rangegen(re, rt, ranges[0:n/2], links[0:n/2], end) l2 = rangegen(re, rt, ranges[n/2:n], links[n/2:n], end) re.prog[alt] = `Ifork (l0, l1) ;; -> re.proglen } const rangeprogsize = {rt var sz if rt.ranges.len == 0 sz = 0 else sz = 2*rt.ranges.len - 1 for l in rt.link sz += rangeprogsize(l) ;; ;; if rt.end sz += 1 ;; -> sz } /* calculates the forward jump distance for a utf8 character range */ const jmpdist = {n var d d = n - 1 for var i = n - 1; i > 0; i-- d += i ;; -> d } /* generates an alternation */ const genalt = {re, l, r var alt var jmp var l0 var l1 var l2 alt = re.proglen l0 = append(re, `Ifork (-1, -1)) /* needs to be replaced */ gen(re, l) jmp = re.proglen l1 = append(re, `Ijmp -1) /* needs to be replaced */ l2 = gen(re, r) re.prog[alt] = `Ifork(l0, l1) re.prog[jmp] = `Ijmp l2 -> re.proglen } /* generates a repetition operator */ const genstar = {re, rep, reluct var alt var jmp var l0 var l1 var l2 l0 = re.proglen alt = re.proglen l1 = append(re, `Ifork (-1, -1)) /* needs to be replaced */ jmp = gen(re, rep) l2 = append(re, `Ijmp -1) /* reluctant matches should prefer jumping to the end. */ if reluct re.prog[alt] = `Ifork (l2, l1) else re.prog[alt] = `Ifork (l1, l2) ;; re.prog[jmp] = `Ijmp l0 -> re.proglen } /* generates a question mark operator */ const genquest = {re, q var alt var l0 var l1 alt = re.proglen l0 = append(re, `Ifork (-1, -1)) /* needs to be replaced */ l1 = gen(re, q) re.prog[alt] = `Ifork (l0, l1) -> re.proglen } /* generates a single char match */ const genchar = {re, c var b : byte[4] var n n = std.encode(b[:], c) std.assert(n > 0 && n < 4, "non-utf character in regex\n") for var i = 0; i < n; i++ append(re, `Ibyte b[i]) ;; -> re.proglen } /* appends an instructon to an re program */ const append = {re, insn if re.proglen == re.prog.len std.slgrow(&re.prog, std.max(1, 2*re.proglen)) ;; re.prog[re.proglen] = insn re.proglen++ -> re.proglen } /* instruction dump */ const idump = {re if !re.debug -> void ;; for var i = 0; i < re.proglen; i++ std.put("{}:\t", i) match re.prog[i] /* Char matching. Consume exactly one byte from the string. */ | `Ibyte b: std.put("`Ibyte {} ({})\n", b, b castto(char)) | `Irange (start, end): std.put("`Irange ({},{})", start, end) if std.isalnum(start castto(char)) && std.isalnum(end castto(char)) std.put("\t/* {}-{} */", start castto(char), end castto(char)) ;; std.put("\n") /* capture groups */ | `Ilbra m: std.put("`Ilbra {}\n", m) | `Irbra m: std.put("`Irbra {}\n", m) /* anchors */ | `Ibol: std.put("`Ibol\n") | `Ieol: std.put("`Ieol\n") | `Ibow: std.put("`Ibow\n") | `Ieow: std.put("`Ieow\n") /* control flow */ | `Ifork (lip, rip): std.put("`Ifork ({},{})\n", lip, rip) | `Ijmp ip: std.put("`Ijmp {}\n", ip) | `Imatch id: std.put("`Imatch {}\n", id) ;; ;; } /* AST dump */ const dump = {re, t, indent if !re.debug -> void ;; for var i = 0; i < indent; i++ std.put(" ") ;; match t# | `Alt (a, b): std.put("Alt\n") dump(re, a, indent + 1) dump(re, b, indent + 1) | `Cat (a, b): std.put("Cat\n") dump(re, a, indent + 1) dump(re, b, indent + 1) /* repetition */ | `Star a: std.put("Star\n") dump(re, a, indent + 1) | `Rstar a: std.put("Rstar\n") dump(re, a, indent + 1) | `Plus a: std.put("Plus\n") dump(re, a, indent + 1) | `Rplus a: std.put("Rplus\n") dump(re, a, indent + 1) | `Quest a: std.put("Quest\n") dump(re, a, indent + 1) | `Bol: std.put("Bol\n") | `Eol: std.put("Eol\n") | `Bow: std.put("Bow\n") | `Eow: std.put("Eow\n") /* end matches */ | `Chr c: std.put("Char {}\n", c) | `Ranges rl: std.put("Ranges") for r in rl for var i = 0; i < indent + 1; i++ std.put(" ") ;; std.put("\t({}-{})\n", r[0], r[1]) ;; /* meta */ | `Cap (m, a): std.put("Cap {}\n", m) dump(re, a, indent + 1) ;; } /* parses an expression */ const regexparse = {re match altexpr(re) | `Some t: if re.pat.len == 0 -> `Some t else astfree(t) -> `Fail `Incomplete ;; | `None: -> `None | `Fail st: -> `Fail st ;; } const altexpr = {re var ret match catexpr(re) | `Some t: ret = t if matchc(re, '|') match altexpr(re) | `Some rhs: ret = std.mk(`Alt (ret, rhs)) | `None: astfree(ret) -> `Fail (`Incomplete) | `Fail f: -> `Fail f ;; ;; | other: -> other ;; -> `Some ret } const catexpr = {re var ret match repexpr(re) | `Some t: ret = t match catexpr(re) | `Some rhs: ret = std.mk(`Cat (t, rhs)) | `Fail f: -> `Fail f | `None: /* nothing */ ;; | other: -> other ;; -> `Some ret } const repexpr = {re var ret match baseexpr(re) | `Some t: if matchc(re, '*') if matchc(re, '?') ret = std.mk(`Rstar t) else ret = std.mk(`Star t) ;; elif matchc(re, '+') if matchc(re, '?') ret = std.mk(`Rplus t) else ret = std.mk(`Plus t) ;; elif matchc(re, '?') ret = std.mk(`Quest t) else ret = t ;; | other: -> other ;; -> `Some ret } const baseexpr = {re var ret, m if re.pat.len == 0 -> `None ;; match peekc(re) /* lower prec operators */ | '|': -> `None | ')': -> `None | '*': -> `Fail `Badrep '*' | '+': -> `Fail `Badrep '+' | '?': -> `Fail `Badrep '?' | '[': -> chrclass(re) | '.': getc(re); ret = std.mk(`Ranges std.sldup([[0, std.Maxcharval]][:])) | '^': getc(re); ret = std.mk(`Bol) | '$': getc(re); ret = std.mk(`Eol) | '(': m = re.nmatch++ getc(re) match altexpr(re) | `Some s: if matchc(re, ')') -> `Some std.mk(`Cap (m, s)) else -> `Fail `Unbalanced '(' ;; | `None: -> `Fail `Emptyparen | `Fail st: -> `Fail st ;; | '\\': getc(re) /* consume the slash */ if re.pat.len == 0 -> `Fail `Incomplete ;; -> escaped(re) | c: getc(re) ret = std.mk(`Chr c) ;; -> `Some ret } const escaped = {re var ret match getc(re) /* character classes */ | 'd': ret = `Some std.mk(`Ranges std.sldup(_ranges.tabasciidigit[:])) | 'x': ret = `Some std.mk(`Ranges std.sldup(_ranges.tabasciixdigit[:])) | 's': ret = `Some std.mk(`Ranges std.sldup(_ranges.tabasciispace[:])) | 'w': ret = `Some std.mk(`Ranges std.sldup(_ranges.tabasciiword[:])) | 'h': ret = `Some std.mk(`Ranges std.sldup(_ranges.tabasciiblank[:])) /* negated character classes */ | 'W': ret = `Some std.mk(`Ranges negate(_ranges.tabasciiword[:])) | 'S': ret = `Some std.mk(`Ranges negate(_ranges.tabasciispace[:])) | 'D': ret = `Some std.mk(`Ranges negate(_ranges.tabasciidigit[:])) | 'X': ret = `Some std.mk(`Ranges negate(_ranges.tabasciixdigit[:])) | 'H': ret = `Some std.mk(`Ranges negate(_ranges.tabasciiblank[:])) /* unicode character classes */ | 'p': ret = unicodeclass(re, false) | 'P': ret = unicodeclass(re, true) /* operators that need an escape */ | '<': ret = `Some std.mk(`Bow) | '>': ret = `Some std.mk(`Eow) /* escaped metachars */ | '^': ret = `Some std.mk(`Chr '^') | '$': ret = `Some std.mk(`Chr '$') | '.': ret = `Some std.mk(`Chr '.') | '+': ret = `Some std.mk(`Chr '+') | '?': ret = `Some std.mk(`Chr '?') | '*': ret = `Some std.mk(`Chr '*') | chr: ret = `Fail `Badescape chr ;; -> ret } const unicodeclass = {re, neg var c, s var tab var t var n if re.pat.len == 0 -> `Fail (`Incomplete) ;; n = 0 s = re.pat /* either a single char pattern, or {pat} */ match getc(re) | '{': s = s[1:] while re.pat.len > 0 c = getc(re) if c == '}' break ;; n += std.charlen(c) ;; | r: n += std.charlen(r) ;; s = s[:n] /* letters */ if std.sleq(s, "L") || std.sleq(s, "Letter") tab = _ranges.tabalpha[:] elif std.sleq(s, "Lu") || std.sleq(s, "Uppercase_Letter") tab = _ranges.tabupper[:] elif std.sleq(s, "Ll") || std.sleq(s, "Lowercase_Letter") tab = _ranges.tablower[:] elif std.sleq(s, "Lt") || std.sleq(s, "Titlecase_Letter") tab = _ranges.tablower[:] /* numbers (incomplete) */ elif std.sleq(s, "N") || std.sleq(s, "Number") tab = _ranges.tabdigit[:] elif std.sleq(s, "Z") || std.sleq(s, "Separator") tab = _ranges.tabspace[:] elif std.sleq(s, "Zs") || std.sleq(s, "Space_Separator") tab = _ranges.tabblank[:] else -> `Fail (`Badrange s) ;; if !neg t = std.mk(`Ranges std.sldup(tab)) else t = std.mk(`Ranges negate(tab)) ;; -> `Some t } const chrclass = {re var rl, m, n var neg var t /* we know we saw '[' on entry */ matchc(re, '[') neg = false if matchc(re, '^') neg = true ;; rl = rangematch(re, [][:]) while peekc(re) != ']' && re.pat.len > 0 rl = rangematch(re, rl) ;; if !matchc(re, ']') std.slfree(rl) -> `Fail `Unbalanced '[' ;; std.sort(rl, {a, b; if a[0] < b[0] -> `std.Before elif a[0] == b[0] -> `std.Equal else -> `std.After ;;}) m = merge(rl) std.slfree(rl) if neg n = negate(m) std.slfree(m) t = std.mk(`Ranges n) else t = std.mk(`Ranges m) ;; -> `Some t } const rangematch = {re, sl var lo var hi lo = getc(re) if matchc(re, '-') hi = getc(re) if lo <= hi -> std.slpush(&sl, [lo, hi]) else -> std.slpush(&sl, [hi, lo]) ;; else -> std.slpush(&sl, [lo, lo]) ;; } const negate = {rng var start, end, next var neg neg = [][:] start = 0 next = 0 /* if we have no ranges */ for r in rng (end, next) = (r[0], r[1]) std.slpush(&neg, [start, end - 1]) start = next + 1 ;; std.slpush(&neg, [next + 1, std.Maxcharval]) -> neg } /* rl is a sorted list of ranges */ const merge = {rl var lo, hi var ret if rl.len == 0 -> [][:] ;; ret = [][:] lo = rl[0][0] hi = rl[0][1] for r in rl[1:] /* if it overlaps or abuts, merge */ if r[0] <= hi + 1 hi = r[1] else std.slpush(&ret, [lo, hi]) lo = r[0] hi = r[1] ;; ;; -> std.slpush(&ret, [lo, hi]) } const matchc = {re, c var str var chr (chr, str) = std.strstep(re.pat) if chr != c -> false ;; re.pat = str -> true } const getc = {re var c (c, re.pat) = std.strstep(re.pat) -> c } const peekc = {re var c (c, _) = std.strstep(re.pat) -> c } const astfree = {t match t# | `Alt (a, b): astfree(a); astfree(b) | `Cat (a, b): astfree(a); astfree(b) /* repetition */ | `Star a: astfree(a) | `Rstar a: astfree(a) | `Plus a: astfree(a) | `Rplus a: astfree(a) | `Quest a: astfree(a) /* end matches */ | `Chr c: | `Ranges rl: std.slfree(rl) /* meta */ | `Cap (m, a): astfree(a) | _: /* other types have no suballocations */ ;; std.free(t) } const fmtfail = {sb, ap, opt match std.vanext(ap) | `Noimpl: std.sbfmt(sb, "no implementation") | `Incomplete: std.sbfmt(sb, "regex ended before input fully parsed") | `Unbalanced c: std.sbfmt(sb, "unbalanced {}", c) | `Emptyparen: std.sbfmt(sb, "empty parentheses") | `Badrep c: std.sbfmt(sb, "invalid repetition {}", c) | `Badrange s: std.sbfmt(sb, "invalid range name {}", s) | `Badescape c: std.sbfmt(sb, "invalid escape code {}", c) ;; } const __init__ = { var e : status std.fmtinstall(std.typeof(e), fmtfail, [][:]) }