shithub: mc

ref: b332e98485d1c22cb93f3302b83ead9e004d5160
dir: /lib/regex/compile.myr/

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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, [][:])
}