--[[-------------------------------------------------------------------- lparser.lua: Lua 5.1 parser in Lua This file is part of LuaSrcDiet, based on Yueliang material. Copyright (c) 2008 Kein-Hong Man The COPYRIGHT file describes the conditions under which this software may be distributed. See the ChangeLog for more information. ----------------------------------------------------------------------]] --[[-------------------------------------------------------------------- -- NOTES: -- * This is a version of the native 5.1.x parser from Yueliang 0.4.0, -- with significant modifications to handle LuaSrcDiet's needs: -- (1) needs pre-built token tables instead of a module.method -- (2) lparser.error is an optional error handler (from llex) -- (3) not full parsing, currently fakes raw/unlexed constants -- (4) parser() returns globalinfo, localinfo tables -- * Please read technotes.txt for more technical details. -- * NO support for 'arg' vararg functions (LUA_COMPAT_VARARG) -- * A lot of the parser is unused, but might later be useful for -- full-on parsing and analysis for a few measly bytes saved. ----------------------------------------------------------------------]] local base = _G local string = require "string" module "lparser" local _G = base.getfenv() --[[-------------------------------------------------------------------- -- variable and data structure initialization ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- initialization: main variables ---------------------------------------------------------------------- local toklist, -- grammar-only token tables (token table, seminfolist, -- semantic information table, line number toklnlist, -- table, cross-reference table) xreflist, tpos, -- token position line, -- start line # for error messages lastln, -- last line # for ambiguous syntax chk tok, seminfo, ln, xref, -- token, semantic info, line nameref, -- proper position of token fs, -- current function state top_fs, -- top-level function state globalinfo, -- global variable information table globallookup, -- global variable name lookup table localinfo, -- local variable information table ilocalinfo, -- inactive locals (prior to activation) ilocalrefs -- corresponding references to activate -- forward references for local functions local explist1, expr, block, exp1, body, chunk ---------------------------------------------------------------------- -- initialization: data structures ---------------------------------------------------------------------- local gmatch = string.gmatch local block_follow = {} -- lookahead check in chunk(), returnstat() for v in gmatch("else elseif end until ", "%S+") do block_follow[v] = true end local stat_call = {} -- lookup for calls in stat() for v in gmatch("if while do for repeat function local return break continue", "%S+") do stat_call[v] = v.."_stat" end local binopr_left = {} -- binary operators, left priority local binopr_right = {} -- binary operators, right priority for op, lt, rt in gmatch([[ {+ 6 6}{- 6 6}{* 7 7}{/ 7 7}{% 7 7} {^ 10 9}{.. 5 4} {~= 3 3}{== 3 3} {< 3 3}{<= 3 3}{> 3 3}{>= 3 3} {and 2 2}{or 1 1} ]], "{(%S+)%s(%d+)%s(%d+)}") do binopr_left[op] = lt + 0 binopr_right[op] = rt + 0 end local unopr = { ["not"] = true, ["-"] = true, ["#"] = true, } -- unary operators local UNARY_PRIORITY = 8 -- priority for unary operators --[[-------------------------------------------------------------------- -- support functions ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- formats error message and throws error (duplicated from llex) -- * a simplified version, does not report what token was responsible ---------------------------------------------------------------------- local function errorline(s, line) local e = error or base.error e(string.format("(source):%d: %s", line or ln, s)) end ---------------------------------------------------------------------- -- handles incoming token, semantic information pairs -- * NOTE: 'nextt' is named 'next' originally ---------------------------------------------------------------------- -- reads in next token local function nextt() lastln = toklnlist[tpos] tok, seminfo, ln, xref = toklist[tpos], seminfolist[tpos], toklnlist[tpos], xreflist[tpos] tpos = tpos + 1 end -- peek at next token (single lookahead for table constructor) local function lookahead() return toklist[tpos] end ---------------------------------------------------------------------- -- throws a syntax error, or if token expected is not there ---------------------------------------------------------------------- local function syntaxerror(msg) local tok = tok if tok ~= "" and tok ~= "" then if tok == "" then tok = seminfo end tok = "'"..tok.."'" end errorline(msg.." near "..tok) end local function error_expected(token) syntaxerror("'"..token.."' expected") end ---------------------------------------------------------------------- -- tests for a token, returns outcome -- * return value changed to boolean ---------------------------------------------------------------------- local function testnext(c) if tok == c then nextt(); return true end end ---------------------------------------------------------------------- -- check for existence of a token, throws error if not found ---------------------------------------------------------------------- local function check(c) if tok ~= c then error_expected(c) end end ---------------------------------------------------------------------- -- verify existence of a token, then skip it ---------------------------------------------------------------------- local function checknext(c) check(c); nextt() end ---------------------------------------------------------------------- -- throws error if condition not matched ---------------------------------------------------------------------- local function check_condition(c, msg) if not c then syntaxerror(msg) end end ---------------------------------------------------------------------- -- verifies token conditions are met or else throw error ---------------------------------------------------------------------- local function check_match(what, who, where) if not testnext(what) then if where == ln then error_expected(what) else syntaxerror("'"..what.."' expected (to close '"..who.."' at line "..where..")") end end end ---------------------------------------------------------------------- -- expect that token is a name, return the name ---------------------------------------------------------------------- local function str_checkname() check("") local ts = seminfo nameref = xref nextt() return ts end ---------------------------------------------------------------------- -- adds given string s in string pool, sets e as VK ---------------------------------------------------------------------- local function codestring(e, s) e.k = "VK" end ---------------------------------------------------------------------- -- consume a name token, adds it to string pool ---------------------------------------------------------------------- local function checkname(e) codestring(e, str_checkname()) end --[[-------------------------------------------------------------------- -- variable (global|local|upvalue) handling -- * to track locals and globals, we can extend Yueliang's minimal -- variable management code with little trouble -- * entry point is singlevar() for variable lookups -- * lookup tables (bl.locallist) are maintained awkwardly in the basic -- block data structures, PLUS the function data structure (this is -- an inelegant hack, since bl is nil for the top level of a function) ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- register a local variable, create local variable object, set in -- to-activate variable list -- * used in new_localvarliteral(), parlist(), fornum(), forlist(), -- localfunc(), localstat() ---------------------------------------------------------------------- local function new_localvar(name, special) local bl = fs.bl local locallist -- locate locallist in current block object or function root object if bl then locallist = bl.locallist else locallist = fs.locallist end -- build local variable information object and set localinfo local id = #localinfo + 1 localinfo[id] = { -- new local variable object name = name, -- local variable name xref = { nameref }, -- xref, first value is declaration decl = nameref, -- location of declaration, = xref[1] } if special then -- "self" must be not be changed localinfo[id].isself = true end -- this can override a local with the same name in the same scope -- but first, keep it inactive until it gets activated local i = #ilocalinfo + 1 ilocalinfo[i] = id ilocalrefs[i] = locallist end ---------------------------------------------------------------------- -- actually activate the variables so that they are visible -- * remember Lua semantics, e.g. RHS is evaluated first, then LHS -- * used in parlist(), forbody(), localfunc(), localstat(), body() ---------------------------------------------------------------------- local function adjustlocalvars(nvars) local sz = #ilocalinfo -- i goes from left to right, in order of local allocation, because -- of something like: local a,a,a = 1,2,3 which gives a = 3 while nvars > 0 do nvars = nvars - 1 local i = sz - nvars local id = ilocalinfo[i] -- local's id local obj = localinfo[id] local name = obj.name -- name of local obj.act = xref -- set activation location ilocalinfo[i] = nil local locallist = ilocalrefs[i] -- ref to lookup table to update ilocalrefs[i] = nil local existing = locallist[name] -- if existing, remove old first! if existing then -- do not overlap, set special obj = localinfo[existing] -- form of rem, as -id obj.rem = -id end locallist[name] = id -- activate, now visible to Lua end end ---------------------------------------------------------------------- -- remove (deactivate) variables in current scope (before scope exits) -- * zap entire locallist tables since we are not allocating registers -- * used in leaveblock(), close_func() ---------------------------------------------------------------------- local function removevars() local bl = fs.bl local locallist -- locate locallist in current block object or function root object if bl then locallist = bl.locallist else locallist = fs.locallist end -- enumerate the local list at current scope and deactivate 'em for name, id in base.pairs(locallist) do local obj = localinfo[id] obj.rem = xref -- set deactivation location end end ---------------------------------------------------------------------- -- creates a new local variable given a name -- * skips internal locals (those starting with '('), so internal -- locals never needs a corresponding adjustlocalvars() call -- * special is true for "self" which must not be optimized -- * used in fornum(), forlist(), parlist(), body() ---------------------------------------------------------------------- local function new_localvarliteral(name, special) if string.sub(name, 1, 1) == "(" then -- can skip internal locals return end new_localvar(name, special) end ---------------------------------------------------------------------- -- search the local variable namespace of the given fs for a match -- * returns localinfo index -- * used only in singlevaraux() ---------------------------------------------------------------------- local function searchvar(fs, n) local bl = fs.bl local locallist if bl then locallist = bl.locallist while locallist do if locallist[n] then return locallist[n] end -- found bl = bl.prev locallist = bl and bl.locallist end end locallist = fs.locallist return locallist[n] or -1 -- found or not found (-1) end ---------------------------------------------------------------------- -- handle locals, globals and upvalues and related processing -- * search mechanism is recursive, calls itself to search parents -- * used only in singlevar() ---------------------------------------------------------------------- local function singlevaraux(fs, n, var) if fs == nil then -- no more levels? var.k = "VGLOBAL" -- default is global variable return "VGLOBAL" else local v = searchvar(fs, n) -- look up at current level if v >= 0 then var.k = "VLOCAL" var.id = v -- codegen may need to deal with upvalue here return "VLOCAL" else -- not found at current level; try upper one if singlevaraux(fs.prev, n, var) == "VGLOBAL" then return "VGLOBAL" end -- else was LOCAL or UPVAL, handle here var.k = "VUPVAL" -- upvalue in this level return "VUPVAL" end--if v end--if fs end ---------------------------------------------------------------------- -- consume a name token, creates a variable (global|local|upvalue) -- * used in prefixexp(), funcname() ---------------------------------------------------------------------- local function singlevar(v) local name = str_checkname() singlevaraux(fs, name, v) ------------------------------------------------------------------ -- variable tracking ------------------------------------------------------------------ if v.k == "VGLOBAL" then -- if global being accessed, keep track of it by creating an object local id = globallookup[name] if not id then id = #globalinfo + 1 globalinfo[id] = { -- new global variable object name = name, -- global variable name xref = { nameref }, -- xref, first value is declaration } globallookup[name] = id -- remember it else local obj = globalinfo[id].xref obj[#obj + 1] = nameref -- add xref end else -- local/upvalue is being accessed, keep track of it local id = v.id local obj = localinfo[id].xref obj[#obj + 1] = nameref -- add xref end end --[[-------------------------------------------------------------------- -- state management functions with open/close pairs ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- enters a code unit, initializes elements ---------------------------------------------------------------------- local function enterblock(isbreakable) local bl = {} -- per-block state bl.isbreakable = isbreakable bl.prev = fs.bl bl.locallist = {} fs.bl = bl end ---------------------------------------------------------------------- -- leaves a code unit, close any upvalues ---------------------------------------------------------------------- local function leaveblock() local bl = fs.bl removevars() fs.bl = bl.prev end ---------------------------------------------------------------------- -- opening of a function -- * top_fs is only for anchoring the top fs, so that parser() can -- return it to the caller function along with useful output -- * used in parser() and body() ---------------------------------------------------------------------- local function open_func() local new_fs -- per-function state if not fs then -- top_fs is created early new_fs = top_fs else new_fs = {} end new_fs.prev = fs -- linked list of function states new_fs.bl = nil new_fs.locallist = {} fs = new_fs end ---------------------------------------------------------------------- -- closing of a function -- * used in parser() and body() ---------------------------------------------------------------------- local function close_func() removevars() fs = fs.prev end --[[-------------------------------------------------------------------- -- other parsing functions -- * for table constructor, parameter list, argument list ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- parse a function name suffix, for function call specifications -- * used in primaryexp(), funcname() ---------------------------------------------------------------------- local function field(v) -- field -> ['.' | ':'] NAME local key = {} nextt() -- skip the dot or colon checkname(key) v.k = "VINDEXED" end ---------------------------------------------------------------------- -- parse a table indexing suffix, for constructors, expressions -- * used in recfield(), primaryexp() ---------------------------------------------------------------------- local function yindex(v) -- index -> '[' expr ']' nextt() -- skip the '[' expr(v) checknext("]") end ---------------------------------------------------------------------- -- parse a table record (hash) field -- * used in constructor() ---------------------------------------------------------------------- local function recfield(cc) -- recfield -> (NAME | '['exp1']') = exp1 local key, val = {}, {} if tok == "" then checkname(key) else-- tok == '[' yindex(key) end checknext("=") expr(val) end ---------------------------------------------------------------------- -- emit a set list instruction if enough elements (LFIELDS_PER_FLUSH) -- * note: retained in this skeleton because it modifies cc.v.k -- * used in constructor() ---------------------------------------------------------------------- local function closelistfield(cc) if cc.v.k == "VVOID" then return end -- there is no list item cc.v.k = "VVOID" end ---------------------------------------------------------------------- -- parse a table list (array) field -- * used in constructor() ---------------------------------------------------------------------- local function listfield(cc) expr(cc.v) end ---------------------------------------------------------------------- -- parse a table constructor -- * used in funcargs(), simpleexp() ---------------------------------------------------------------------- local function constructor(t) -- constructor -> '{' [ field { fieldsep field } [ fieldsep ] ] '}' -- field -> recfield | listfield -- fieldsep -> ',' | ';' local line = ln local cc = {} cc.v = {} cc.t = t t.k = "VRELOCABLE" cc.v.k = "VVOID" checknext("{") repeat if tok == "}" then break end -- closelistfield(cc) here local c = tok if c == "" then -- may be listfields or recfields if lookahead() ~= "=" then -- look ahead: expression? listfield(cc) else recfield(cc) end elseif c == "[" then -- constructor_item -> recfield recfield(cc) else -- constructor_part -> listfield listfield(cc) end until not testnext(",") and not testnext(";") check_match("}", "{", line) -- lastlistfield(cc) here end ---------------------------------------------------------------------- -- parse the arguments (parameters) of a function declaration -- * used in body() ---------------------------------------------------------------------- local function parlist() -- parlist -> [ param { ',' param } ] local nparams = 0 if tok ~= ")" then -- is 'parlist' not empty? repeat local c = tok if c == "" then -- param -> NAME new_localvar(str_checkname()) nparams = nparams + 1 elseif c == "..." then nextt() fs.is_vararg = true else syntaxerror(" or '...' expected") end until fs.is_vararg or not testnext(",") end--if adjustlocalvars(nparams) end ---------------------------------------------------------------------- -- parse the parameters of a function call -- * contrast with parlist(), used in function declarations -- * used in primaryexp() ---------------------------------------------------------------------- local function funcargs(f) local args = {} local line = ln local c = tok if c == "(" then -- funcargs -> '(' [ explist1 ] ')' if line ~= lastln then syntaxerror("ambiguous syntax (function call x new statement)") end nextt() if tok == ")" then -- arg list is empty? args.k = "VVOID" else explist1(args) end check_match(")", "(", line) elseif c == "{" then -- funcargs -> constructor constructor(args) elseif c == "" then -- funcargs -> STRING codestring(args, seminfo) nextt() -- must use 'seminfo' before 'next' else syntaxerror("function arguments expected") return end--if c f.k = "VCALL" end --[[-------------------------------------------------------------------- -- mostly expression functions ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- parses an expression in parentheses or a single variable -- * used in primaryexp() ---------------------------------------------------------------------- local function prefixexp(v) -- prefixexp -> NAME | '(' expr ')' local c = tok if c == "(" then local line = ln nextt() expr(v) check_match(")", "(", line) elseif c == "" then singlevar(v) else syntaxerror("unexpected symbol") end--if c end ---------------------------------------------------------------------- -- parses a prefixexp (an expression in parentheses or a single -- variable) or a function call specification -- * used in simpleexp(), assignment(), expr_stat() ---------------------------------------------------------------------- local function primaryexp(v) -- primaryexp -> -- prefixexp { '.' NAME | '[' exp ']' | ':' NAME funcargs | funcargs } prefixexp(v) while true do local c = tok if c == "." then -- field field(v) elseif c == "[" then -- '[' exp1 ']' local key = {} yindex(key) elseif c == ":" then -- ':' NAME funcargs local key = {} nextt() checkname(key) funcargs(v) elseif c == "(" or c == "" or c == "{" then -- funcargs funcargs(v) else return end--if c end--while end ---------------------------------------------------------------------- -- parses general expression types, constants handled here -- * used in subexpr() ---------------------------------------------------------------------- local function simpleexp(v) -- simpleexp -> NUMBER | STRING | NIL | TRUE | FALSE | ... | -- constructor | FUNCTION body | primaryexp local c = tok if c == "" then v.k = "VKNUM" elseif c == "" then codestring(v, seminfo) elseif c == "nil" then v.k = "VNIL" elseif c == "true" then v.k = "VTRUE" elseif c == "false" then v.k = "VFALSE" elseif c == "..." then -- vararg check_condition(fs.is_vararg == true, "cannot use '...' outside a vararg function"); v.k = "VVARARG" elseif c == "{" then -- constructor constructor(v) return elseif c == "function" then nextt() body(v, false, ln) return else primaryexp(v) return end--if c nextt() end ------------------------------------------------------------------------ -- Parse subexpressions. Includes handling of unary operators and binary -- operators. A subexpr is given the rhs priority level of the operator -- immediately left of it, if any (limit is -1 if none,) and if a binop -- is found, limit is compared with the lhs priority level of the binop -- in order to determine which executes first. -- * recursively called -- * used in expr() ------------------------------------------------------------------------ local function subexpr(v, limit) -- subexpr -> (simpleexp | unop subexpr) { binop subexpr } -- * where 'binop' is any binary operator with a priority -- higher than 'limit' local op = tok local uop = unopr[op] if uop then nextt() subexpr(v, UNARY_PRIORITY) else simpleexp(v) end -- expand while operators have priorities higher than 'limit' op = tok local binop = binopr_left[op] while binop and binop > limit do local v2 = {} nextt() -- read sub-expression with higher priority local nextop = subexpr(v2, binopr_right[op]) op = nextop binop = binopr_left[op] end return op -- return first untreated operator end ---------------------------------------------------------------------- -- Expression parsing starts here. Function subexpr is entered with the -- left operator (which is non-existent) priority of -1, which is lower -- than all actual operators. Expr information is returned in parm v. -- * used in cond(), explist1(), index(), recfield(), listfield(), -- prefixexp(), while_stat(), exp1() ---------------------------------------------------------------------- -- this is a forward-referenced local function expr(v) -- expr -> subexpr subexpr(v, 0) end --[[-------------------------------------------------------------------- -- third level parsing functions ----------------------------------------------------------------------]] ------------------------------------------------------------------------ -- parse a variable assignment sequence -- * recursively called -- * used in expr_stat() ------------------------------------------------------------------------ local function assignment(v) local e = {} local c = v.v.k check_condition(c == "VLOCAL" or c == "VUPVAL" or c == "VGLOBAL" or c == "VINDEXED", "syntax error") if testnext(",") then -- assignment -> ',' primaryexp assignment local nv = {} -- expdesc nv.v = {} primaryexp(nv.v) -- lparser.c deals with some register usage conflict here assignment(nv) else -- assignment -> '=' explist1 checknext("=") explist1(e) return -- avoid default end e.k = "VNONRELOC" end ---------------------------------------------------------------------- -- parse a for loop body for both versions of the for loop -- * used in fornum(), forlist() ---------------------------------------------------------------------- local function forbody(nvars, isnum) -- forbody -> DO block checknext("do") enterblock(false) -- scope for declared variables adjustlocalvars(nvars) block() leaveblock() -- end of scope for declared variables end ---------------------------------------------------------------------- -- parse a numerical for loop, calls forbody() -- * used in for_stat() ---------------------------------------------------------------------- local function fornum(varname) -- fornum -> NAME = exp1, exp1 [, exp1] DO body local line = line new_localvarliteral("(for index)") new_localvarliteral("(for limit)") new_localvarliteral("(for step)") new_localvar(varname) checknext("=") exp1() -- initial value checknext(",") exp1() -- limit if testnext(",") then exp1() -- optional step else -- default step = 1 end forbody(1, true) end ---------------------------------------------------------------------- -- parse a generic for loop, calls forbody() -- * used in for_stat() ---------------------------------------------------------------------- local function forlist(indexname) -- forlist -> NAME {, NAME} IN explist1 DO body local e = {} -- create control variables new_localvarliteral("(for generator)") new_localvarliteral("(for state)") new_localvarliteral("(for control)") -- create declared variables new_localvar(indexname) local nvars = 1 while testnext(",") do new_localvar(str_checkname()) nvars = nvars + 1 end checknext("in") local line = line explist1(e) forbody(nvars, false) end ---------------------------------------------------------------------- -- parse a function name specification -- * used in func_stat() ---------------------------------------------------------------------- local function funcname(v) -- funcname -> NAME {field} [':' NAME] local needself = false singlevar(v) while tok == "." do field(v) end if tok == ":" then needself = true field(v) end return needself end ---------------------------------------------------------------------- -- parse the single expressions needed in numerical for loops -- * used in fornum() ---------------------------------------------------------------------- -- this is a forward-referenced local function exp1() -- exp1 -> expr local e = {} expr(e) end ---------------------------------------------------------------------- -- parse condition in a repeat statement or an if control structure -- * used in repeat_stat(), test_then_block() ---------------------------------------------------------------------- local function cond() -- cond -> expr local v = {} expr(v) -- read condition end ---------------------------------------------------------------------- -- parse part of an if control structure, including the condition -- * used in if_stat() ---------------------------------------------------------------------- local function test_then_block() -- test_then_block -> [IF | ELSEIF] cond THEN block nextt() -- skip IF or ELSEIF cond() checknext("then") block() -- 'then' part end ---------------------------------------------------------------------- -- parse a local function statement -- * used in local_stat() ---------------------------------------------------------------------- local function localfunc() -- localfunc -> NAME body local v, b = {} new_localvar(str_checkname()) v.k = "VLOCAL" adjustlocalvars(1) body(b, false, ln) end ---------------------------------------------------------------------- -- parse a local variable declaration statement -- * used in local_stat() ---------------------------------------------------------------------- local function localstat() -- localstat -> NAME {',' NAME} ['=' explist1] local nvars = 0 local e = {} repeat new_localvar(str_checkname()) nvars = nvars + 1 until not testnext(",") if testnext("=") then explist1(e) else e.k = "VVOID" end adjustlocalvars(nvars) end ---------------------------------------------------------------------- -- parse a list of comma-separated expressions -- * used in return_stat(), localstat(), funcargs(), assignment(), -- forlist() ---------------------------------------------------------------------- -- this is a forward-referenced local function explist1(e) -- explist1 -> expr { ',' expr } expr(e) while testnext(",") do expr(e) end end ---------------------------------------------------------------------- -- parse function declaration body -- * used in simpleexp(), localfunc(), func_stat() ---------------------------------------------------------------------- -- this is a forward-referenced local function body(e, needself, line) -- body -> '(' parlist ')' chunk END open_func() checknext("(") if needself then new_localvarliteral("self", true) adjustlocalvars(1) end parlist() checknext(")") chunk() check_match("end", "function", line) close_func() end ---------------------------------------------------------------------- -- parse a code block or unit -- * used in do_stat(), while_stat(), forbody(), test_then_block(), -- if_stat() ---------------------------------------------------------------------- -- this is a forward-referenced local function block() -- block -> chunk enterblock(false) chunk() leaveblock() end --[[-------------------------------------------------------------------- -- second level parsing functions, all with '_stat' suffix -- * since they are called via a table lookup, they cannot be local -- functions (a lookup table of local functions might be smaller...) -- * stat() -> *_stat() ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- initial parsing for a for loop, calls fornum() or forlist() -- * removed 'line' parameter (used to set debug information only) -- * used in stat() ---------------------------------------------------------------------- function for_stat() -- stat -> for_stat -> FOR (fornum | forlist) END local line = line enterblock(true) -- scope for loop and control variables nextt() -- skip 'for' local varname = str_checkname() -- first variable name local c = tok if c == "=" then fornum(varname) elseif c == "," or c == "in" then forlist(varname) else syntaxerror("'=' or 'in' expected") end check_match("end", "for", line) leaveblock() -- loop scope (`break' jumps to this point) end ---------------------------------------------------------------------- -- parse a while-do control structure, body processed by block() -- * used in stat() ---------------------------------------------------------------------- function while_stat() -- stat -> while_stat -> WHILE cond DO block END local line = line nextt() -- skip WHILE cond() -- parse condition enterblock(true) checknext("do") block() check_match("end", "while", line) leaveblock() end ---------------------------------------------------------------------- -- parse a repeat-until control structure, body parsed by chunk() -- * originally, repeatstat() calls breakstat() too if there is an -- upvalue in the scope block; nothing is actually lexed, it is -- actually the common code in breakstat() for closing of upvalues -- * used in stat() ---------------------------------------------------------------------- function repeat_stat() -- stat -> repeat_stat -> REPEAT block UNTIL cond local line = line enterblock(true) -- loop block enterblock(false) -- scope block nextt() -- skip REPEAT chunk() check_match("until", "repeat", line) cond() -- close upvalues at scope level below leaveblock() -- finish scope leaveblock() -- finish loop end ---------------------------------------------------------------------- -- parse an if control structure -- * used in stat() ---------------------------------------------------------------------- function if_stat() -- stat -> if_stat -> IF cond THEN block -- {ELSEIF cond THEN block} [ELSE block] END local line = line local v = {} test_then_block() -- IF cond THEN block while tok == "elseif" do test_then_block() -- ELSEIF cond THEN block end if tok == "else" then nextt() -- skip ELSE block() -- 'else' part end check_match("end", "if", line) end ---------------------------------------------------------------------- -- parse a return statement -- * used in stat() ---------------------------------------------------------------------- function return_stat() -- stat -> return_stat -> RETURN explist local e = {} nextt() -- skip RETURN local c = tok if block_follow[c] or c == ";" then -- return no values else explist1(e) -- optional return values end end ---------------------------------------------------------------------- -- parse a break statement -- * used in stat() ---------------------------------------------------------------------- function break_stat() -- stat -> break_stat -> BREAK local bl = fs.bl nextt() -- skip BREAK while bl and not bl.isbreakable do -- find a breakable block bl = bl.prev end if not bl then syntaxerror("no loop to break") end end ---------------------------------------------------------------------- -- parse a continue statement -- continue can be used in the same blocks as break -- * used in stat() ---------------------------------------------------------------------- function continue_stat() -- stat -> continue_stat -> CONTINUE local bl = fs.bl nextt() -- skip CONTINUE while bl and not bl.isbreakable do -- find a breakable block bl = bl.prev end if not bl then syntaxerror("no loop to continue") end end ---------------------------------------------------------------------- -- parse a function call with no returns or an assignment statement -- * the struct with .prev is used for name searching in lparse.c, -- so it is retained for now; present in assignment() also -- * used in stat() ---------------------------------------------------------------------- function expr_stat() -- stat -> expr_stat -> func | assignment local v = {} v.v = {} primaryexp(v.v) if v.v.k == "VCALL" then -- stat -> func -- call statement uses no results else -- stat -> assignment v.prev = nil assignment(v) end end ---------------------------------------------------------------------- -- parse a function statement -- * used in stat() ---------------------------------------------------------------------- function function_stat() -- stat -> function_stat -> FUNCTION funcname body local line = line local v, b = {}, {} nextt() -- skip FUNCTION local needself = funcname(v) body(b, needself, line) end ---------------------------------------------------------------------- -- parse a simple block enclosed by a DO..END pair -- * used in stat() ---------------------------------------------------------------------- function do_stat() -- stat -> do_stat -> DO block END local line = line nextt() -- skip DO block() check_match("end", "do", line) end ---------------------------------------------------------------------- -- parse a statement starting with LOCAL -- * used in stat() ---------------------------------------------------------------------- function local_stat() -- stat -> local_stat -> LOCAL FUNCTION localfunc -- -> LOCAL localstat nextt() -- skip LOCAL if testnext("function") then -- local function? localfunc() else localstat() end end --[[-------------------------------------------------------------------- -- main functions, top level parsing functions -- * accessible functions are: init(lexer), parser() -- * [entry] -> parser() -> chunk() -> stat() ----------------------------------------------------------------------]] ---------------------------------------------------------------------- -- initial parsing for statements, calls '_stat' suffixed functions -- * used in chunk() ---------------------------------------------------------------------- local function stat() -- stat -> if_stat while_stat do_stat for_stat repeat_stat -- function_stat local_stat return_stat break_stat -- expr_stat line = ln -- may be needed for error messages local c = tok local fn = stat_call[c] -- handles: if while do for repeat function local return break if fn then _G[fn]() -- return or break must be last statement if c == "return" or c == "break" then return true end else expr_stat() end return false end ---------------------------------------------------------------------- -- parse a chunk, which consists of a bunch of statements -- * used in parser(), body(), block(), repeat_stat() ---------------------------------------------------------------------- -- this is a forward-referenced local function chunk() -- chunk -> { stat [';'] } local islast = false while not islast and not block_follow[tok] do islast = stat() testnext(";") end end ---------------------------------------------------------------------- -- performs parsing, returns parsed data structure ---------------------------------------------------------------------- function parser() open_func() fs.is_vararg = true -- main func. is always vararg nextt() -- read first token chunk() check("") close_func() return globalinfo, localinfo end ---------------------------------------------------------------------- -- initialization function ---------------------------------------------------------------------- function init(tokorig, seminfoorig, toklnorig) tpos = 1 -- token position top_fs = {} -- reset top level function state ------------------------------------------------------------------ -- set up grammar-only token tables; impedance-matching... -- note that constants returned by the lexer is source-level, so -- for now, fake(!) constant tokens (TK_NUMBER|TK_STRING|TK_LSTRING) ------------------------------------------------------------------ local j = 1 toklist, seminfolist, toklnlist, xreflist = {}, {}, {}, {} for i = 1, #tokorig do local tok = tokorig[i] local yep = true if tok == "TK_KEYWORD" or tok == "TK_OP" then tok = seminfoorig[i] elseif tok == "TK_NAME" then tok = "" seminfolist[j] = seminfoorig[i] elseif tok == "TK_NUMBER" then tok = "" seminfolist[j] = 0 -- fake! elseif tok == "TK_STRING" or tok == "TK_LSTRING" then tok = "" seminfolist[j] = "" -- fake! elseif tok == "TK_EOS" then tok = "" else -- non-grammar tokens; ignore them yep = false end if yep then -- set rest of the information toklist[j] = tok toklnlist[j] = toklnorig[i] xreflist[j] = i j = j + 1 end end--for ------------------------------------------------------------------ -- initialize data structures for variable tracking ------------------------------------------------------------------ globalinfo, globallookup, localinfo = {}, {}, {} ilocalinfo, ilocalrefs = {}, {} end return _G