diff options
Diffstat (limited to 'z29.c')
-rw-r--r-- | z29.c | 772 |
1 files changed, 772 insertions, 0 deletions
@@ -0,0 +1,772 @@ +/*@z29.c:Symbol Table:Declarations, hash()@***********************************/ +/* */ +/* THE LOUT DOCUMENT FORMATTING SYSTEM (VERSION 3.17) */ +/* COPYRIGHT (C) 1991, 1999 Jeffrey H. Kingston */ +/* */ +/* Jeffrey H. Kingston (jeff@cs.usyd.edu.au) */ +/* Basser Department of Computer Science */ +/* The University of Sydney 2006 */ +/* AUSTRALIA */ +/* */ +/* This program is free software; you can redistribute it and/or modify */ +/* it under the terms of the GNU General Public License as published by */ +/* the Free Software Foundation; either Version 2, or (at your option) */ +/* any later version. */ +/* */ +/* This program is distributed in the hope that it will be useful, */ +/* but WITHOUT ANY WARRANTY; without even the implied warranty of */ +/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */ +/* GNU General Public License for more details. */ +/* */ +/* You should have received a copy of the GNU General Public License */ +/* along with this program; if not, write to the Free Software */ +/* Foundation, Inc., 59 Temple Place, Suite 330, Boston MA 02111-1307 USA */ +/* */ +/* FILE: z29.c */ +/* MODULE: Symbol Table */ +/* EXTERNS: InitSym(), PushScope(), PopScope(), SuppressVisible(), */ +/* UnSuppressVisible(), SuppressScope(), UnSuppressScope(), */ +/* SwitchScope(), UnSwitchScope(), BodyParAllowed(), */ +/* BodyParNotAllowed(), InsertSym(), SearchSym(), */ +/* SymName(), FullSymName(), ChildSym(), CheckSymSpread(), */ +/* DeleteEverySym() */ +/* */ +/*****************************************************************************/ +#include "externs.h" + +#define MAX_STACK 300 /* size of scope stack */ +#define MAX_TAB 1783 /* size of hash table */ + +#define length(x) word_font(x) + +static OBJECT scope[MAX_STACK]; /* the scope stack */ +static BOOLEAN npars_only[MAX_STACK]; /* look for NPAR exc */ +static BOOLEAN vis_only[MAX_STACK]; /* look for visibles */ +static BOOLEAN body_ok[MAX_STACK]; /* look for body par */ +static BOOLEAN suppress_scope; /* suppress scoping */ +static BOOLEAN suppress_visible; /* suppress visible */ +static int scope_top; /* scope stack top */ +static struct { OBJECT f1, f2; } symtab[MAX_TAB]; /* the hash table */ +#if DEBUG_ON +static int sym_spread[MAX_TAB] = { 0 }; /* hash table spread */ +static int sym_count = 0; /* symbol count */ +#endif + + +/*****************************************************************************/ +/* */ +/* #define hash(str, len, val) */ +/* */ +/* Set val to the hash value of string str, which has length len. */ +/* The hash function is just the character sum mod MAX_TAB. */ +/* This definition assumes that working variables rlen and x exist. */ +/* */ +/*****************************************************************************/ + +#define hash(str, len, val) \ +{ rlen = len; \ + x = str; \ + val = *x++; \ + while( --rlen ) val += *x++; \ + val %= MAX_TAB; \ +} + + +/*@::InitSym(), PushScope(), PopScope(), SuppressVisible(), etc.@*************/ +/* */ +/* InitSym() */ +/* */ +/* Initialize the symbol table to empty. */ +/* */ +/*****************************************************************************/ + +void InitSym(void) +{ int i; + scope_top = 0; + suppress_scope = FALSE; + suppress_visible = FALSE; + for( i = 0; i < MAX_TAB; i++ ) + symtab[i].f1 = symtab[i].f2 = (OBJECT) &symtab[i]; +} /* end InitSym */ + + +/*****************************************************************************/ +/* */ +/* PushScope(x, npars, vis) */ +/* PopScope() */ +/* */ +/* Add or remove an OBJECT x (which must be in the symbol table) to or from */ +/* the scope stack. If npars is TRUE, only the named parameters of x are */ +/* added to scope. If vis is TRUE, only visible locals and parameters are */ +/* added. */ +/* */ +/*****************************************************************************/ + +void PushScope(OBJECT x, BOOLEAN npars, BOOLEAN vis) +{ debug3(DST, DD, "[ PushScope(%s, %s, %s)", SymName(x), bool(npars), bool(vis)); + assert( suppress_scope == FALSE, "PushScope: suppress_scope!" ); + if( scope_top >= MAX_STACK ) + { +#if DEBUG_ON + int i; + for( i = 0; i < scope_top; i++ ) + Error(29, 1, " scope[%2d] = %s", WARN, &fpos(x), i, SymName(scope[i])); +#endif + Error(29, 2, "scope depth limit exceeded", INTERN, &fpos(x)); + } + scope[scope_top] = x; + npars_only[scope_top] = npars; + vis_only[scope_top] = vis; + body_ok[scope_top] = FALSE; + scope_top++; +} /* end PushScope */ + +void PopScope(void) +{ debug0(DST, DD, "] PopScope()"); + assert( scope_top > 0, "PopScope: tried to pop empty scope stack"); + assert( suppress_scope == FALSE, "PopScope: suppress_scope!" ); + scope_top--; +} /* end PopScope */ + + +/*****************************************************************************/ +/* */ +/* SuppressVisible() */ +/* UnSuppressVisible() */ +/* */ +/* Make all children of any symbol acceptable, not just the exported ones. */ +/* */ +/*****************************************************************************/ + +void SuppressVisible(void) +{ debug0(DST, DD, "[ SuppressVisible()"); + suppress_visible = TRUE; +} /* end SuppressVisible */ + +void UnSuppressVisible(void) +{ debug0(DST, DD, "] UnSuppressVisible()"); + suppress_visible = FALSE; +} /* end UnSuppressVisible */ + + +/*@::SuppressScope(), UnSuppressScope(), SwitchScope(), UnswitchScope()@******/ +/* */ +/* SuppressScope() */ +/* UnSuppressScope() */ +/* */ +/* Suppress all scopes (so that all calls to SearchSym fail); and undo it. */ +/* */ +/*****************************************************************************/ + + +void SuppressScope(void) +{ debug0(DST, DD, "[ SuppressScope()"); + suppress_scope = TRUE; +} /* end SuppressScope */ + +void UnSuppressScope(void) +{ debug0(DST, DD, "] UnSuppressScope()"); + suppress_scope = FALSE; +} /* end UnSuppressScope */ + + +/*****************************************************************************/ +/* */ +/* SwitchScope(sym) */ +/* UnSwitchScope(sym) */ +/* */ +/* Switch to the scope of sym (if nilobj, StartSym); and switch back again. */ +/* */ +/*****************************************************************************/ + +void SwitchScope(OBJECT sym) +{ int i; + OBJECT new_scopes[MAX_STACK]; + if( sym == nilobj ) PushScope(StartSym, FALSE, FALSE); + else + { i = 0; + while( sym != StartSym ) + { new_scopes[i++] = enclosing(sym); + sym = enclosing(sym); + } + while( i > 0 ) PushScope(new_scopes[--i], FALSE, FALSE); + } +} + +void UnSwitchScope(OBJECT sym) +{ if( sym == nilobj ) PopScope(); + else + { while( sym != StartSym ) + { PopScope(); + sym = enclosing(sym); + } + } +} + + +/*****************************************************************************/ +/* */ +/* BodyParAllowed() */ +/* BodyParNotAllowed() */ +/* */ +/* Allow or disallow invocations of the body parameter of the current tos. */ +/* */ +/*****************************************************************************/ + +void BodyParAllowed(void) +{ debug0(DST, DD, "BodyParAllowed()"); + body_ok[scope_top-1] = TRUE; +} /* end BodyParAllowed */ + +void BodyParNotAllowed(void) +{ debug0(DST, DD, "BodyParNotAllowed()"); + body_ok[scope_top-1] = FALSE; +} /* end BodyParNotAllowed */ + + +/*****************************************************************************/ +/* */ +/* DebugScope(void) */ +/* */ +/* Debug print of current scope stack */ +/* */ +/*****************************************************************************/ + +void DebugScope(void) +{ int i; + if( suppress_scope ) + { + debug0(DST, DD, "suppressed"); + } + else for( i = 0; i < scope_top; i++ ) + { debug6(DST, DD, "%s %s%s%s%s%s", + i == scope_top - 1 ? "->" : " ", + SymName(scope[i]), + npars_only[i] ? " npars_only" : "", + vis_only[i] ? " vis_only" : "", + body_ok[i] ? " body_ok" : "", + i == scope_top - 1 && suppress_visible ? " suppress_visible" : ""); + } +} /* end DebugScope */ + + +/*@::InsertSym()@*************************************************************/ +/* */ +/* OBJECT InsertSym(str, xtype, xfpos, xprecedence, indefinite, xrecursive, */ +/* xpredefined, xenclosing, xbody) */ +/* */ +/* Insert a new symbol into the table. Its string value is str. */ +/* Initialise the symbol as the parameters indicate. */ +/* Return a pointer to the new symbol. */ +/* If str is not a valid symbol name, InsertSym prints an error */ +/* message and does not insert the symbol. */ +/* */ +/*****************************************************************************/ + +OBJECT InsertSym(FULL_CHAR *str, unsigned char xtype, FILE_POS *xfpos, +unsigned char xprecedence, BOOLEAN xindefinite, BOOLEAN xrecursive, +unsigned xpredefined, OBJECT xenclosing, OBJECT xbody) +{ register int sum, rlen; + register unsigned char *x; + OBJECT p, q, s, tmp, link, entry, plink; int len; + + debug3(DST, DD, "InsertSym( %s, %s, in %s )", + Image(xtype), str, SymName(xenclosing)); + if( !LexLegalName(str) ) + Error(29, 3, "invalid symbol name %s", WARN, xfpos, str); + + New(s, xtype); + FposCopy(fpos(s), *xfpos); + has_body(s) = FALSE; + filter(s) = nilobj; + use_invocation(s) = nilobj; + imports(s) = nilobj; + imports_encl(s) = FALSE; + right_assoc(s) = TRUE; + precedence(s) = xprecedence; + indefinite(s) = xindefinite; + recursive(s) = xrecursive; + predefined(s) = xpredefined; + enclosing(s) = xenclosing; + sym_body(s) = xbody; + base_uses(s) = nilobj; + uses(s) = nilobj; + marker(s) = nilobj; + cross_sym(s) = nilobj; + is_extern_target(s) = FALSE; + uses_extern_target(s)= FALSE; + visible(s) = FALSE; + uses_galley(s) = FALSE; + horiz_galley(s) = ROWM; + has_compulsory(s) = 0; + is_compulsory(s) = FALSE; + + uses_count(s) = 0; + dirty(s) = FALSE; + if( enclosing(s) != nilobj && type(enclosing(s)) == NPAR ) + dirty(enclosing(s)) = TRUE; + + has_par(s) = FALSE; + has_lpar(s) = FALSE; + has_rpar(s) = FALSE; + if( is_par(type(s)) ) has_par(enclosing(s)) = TRUE; + if( type(s) == LPAR ) has_lpar(enclosing(s)) = TRUE; + if( type(s) == RPAR ) has_rpar(enclosing(s)) = TRUE; + + /* assign a code letter between a and z to any NPAR symbol */ + if( type(s) == NPAR ) + { if( LastDown(enclosing(s)) != enclosing(s) ) + { Child(tmp, LastDown(enclosing(s))); + if( type(tmp) == NPAR ) + { if( npar_code(tmp) == 'z' || npar_code(tmp) == ' ' ) + npar_code(s) = ' '; + else + npar_code(s) = npar_code(tmp)+1; + } + else + npar_code(s) = 'a'; + } + else npar_code(s) = 'a'; + } + + has_target(s) = FALSE; + force_target(s) = FALSE; + if( !StringEqual(str, KW_TARGET) ) is_target(s) = FALSE; + else + { is_target(s) = has_target(enclosing(s)) = TRUE; + + /* if @Target is found after @Key, take note of external target */ + if( has_key(enclosing(s)) && xbody != nilobj && is_cross(type(xbody)) ) + { if( LastDown(xbody) != Down(xbody) ) + { OBJECT sym; + Child(sym, Down(xbody)); + if( type(sym) == CLOSURE ) + { is_extern_target(actual(sym)) = TRUE; + uses_extern_target(actual(sym)) = TRUE; + } + } + } + } + + has_tag(s) = is_tag(s) = FALSE; + has_key(s) = is_key(s) = FALSE; + has_optimize(s) = is_optimize(s) = FALSE; + has_merge(s) = is_merge(s) = FALSE; + has_enclose(s) = is_enclose(s) = FALSE; + if( enclosing(s) != nilobj && type(enclosing(s)) == LOCAL ) + { + if( StringEqual(str, KW_TAG) ) + is_tag(s) = has_tag(enclosing(s)) = dirty(enclosing(s)) = TRUE; + + if( StringEqual(str, KW_OPTIMIZE) ) + is_optimize(s) = has_optimize(enclosing(s)) = TRUE; + + if( StringEqual(str, KW_KEY) ) + { is_key(s) = has_key(enclosing(s)) = dirty(enclosing(s)) = TRUE; + + /* if @Key is found after @Target, take note of external target */ + for( link=Down(enclosing(s)); link!=enclosing(s); link=NextDown(link) ) + { Child(p, link); + if( is_target(p) && sym_body(p)!=nilobj && is_cross(type(sym_body(p))) ) + { OBJECT sym; + Child(sym, Down(sym_body(p))); + if( type(sym) == CLOSURE ) + { is_extern_target(actual(sym)) = TRUE; + uses_extern_target(actual(sym)) = TRUE; + } + } + } + } + + if( StringEqual(str, KW_MERGE) ) + is_merge(s) = has_merge(enclosing(s)) = TRUE; + + if( StringEqual(str, KW_ENCLOSE) ) + is_enclose(s) = has_enclose(enclosing(s)) = TRUE; + } + + if( StringEqual(str, KW_FILTER) ) + { if( type(s) != LOCAL || enclosing(s) == StartSym ) + Error(29, 4, "%s must be a local definition", WARN, &fpos(s), str); + else if( !has_rpar(enclosing(s)) ) + Error(29, 14, "%s must lie within a symbol with a right parameter", + WARN, &fpos(s), KW_FILTER); + else + { filter(enclosing(s)) = s; + precedence(enclosing(s)) = FILTER_PREC; + } + } + + if( type(s) == RPAR && has_body(enclosing(s)) && + (is_tag(s) || is_key(s) || is_optimize(s)) ) + Error(29, 5, "a body parameter may not be named %s", WARN, &fpos(s), str); + + if( type(s) == RPAR && has_target(enclosing(s)) && + (is_tag(s) || is_key(s) || is_optimize(s)) ) + Error(29, 6, "the right parameter of a galley may not be called %s", + WARN, &fpos(s), str); + + len = StringLength(str); + hash(str, len, sum); + + ifdebug(DST, D, sym_spread[sum]++; sym_count++); + entry = (OBJECT) &symtab[sum]; + for( plink = Down(entry); plink != entry; plink = NextDown(plink) ) + { Child(p, plink); + if( length(p) == len && StringEqual(str, string(p)) ) + { for( link = Down(p); link != p; link = NextDown(link) ) + { Child(q, link); + if( enclosing(s) == enclosing(q) ) + { Error(29, 7, "symbol %s previously defined at%s", + WARN, &fpos(s), str, EchoFilePos(&fpos(q)) ); + if( AltErrorFormat ) + { + Error(29, 13, "symbol %s previously defined here", + WARN, &fpos(q), str); + } + break; + } + } + goto wrapup; + } + } + + /* need a new OBJECT as well as s */ + NewWord(p, WORD, len, xfpos); + length(p) = len; + StringCopy(string(p), str); + Link(entry, p); + + wrapup: + Link(p, s); + if( enclosing(s) != nilobj ) Link(enclosing(s), s); + debug2(DST, DD, "InsertSym Link(%s, %s) and returning.", + SymName(enclosing(s)), SymName(s)); + return s; +} /* end InsertSym */ + + +/*****************************************************************************/ +/* */ +/* InsertAlternativeName(str, s, xfpos) */ +/* */ +/* Insert an alternative name for symbol s. */ +/* */ +/*****************************************************************************/ + +void InsertAlternativeName(FULL_CHAR *str, OBJECT s, FILE_POS *xfpos) +{ register int sum, rlen; + register unsigned char *x; + int len; + OBJECT entry, link, plink, p, q; + debug3(DST, DD, "InsertAlternativeName(%s, %s, %s)", + str, SymName(s), EchoFilePos(xfpos)); + + len = StringLength(str); + hash(str, len, sum); + + ifdebug(DST, D, sym_spread[sum]++; sym_count++); + entry = (OBJECT) &symtab[sum]; + for( plink = Down(entry); plink != entry; plink = NextDown(plink) ) + { Child(p, plink); + if( length(p) == len && StringEqual(str, string(p)) ) + { for( link = Down(p); link != p; link = NextDown(link) ) + { Child(q, link); + if( enclosing(s) == enclosing(q) ) + { Error(29, 12, "symbol name %s previously defined at%s", + WARN, &fpos(s), str, EchoFilePos(&fpos(q)) ); + break; + } + } + goto wrapup; + } + } + + /* need a new OBJECT as well as s */ + NewWord(p, WORD, len, xfpos); + length(p) = len; + StringCopy(string(p), str); + Link(entry, p); + + wrapup: + Link(p, s); + /* not for copies if( enclosing(s) != nilobj ) Link(enclosing(s), s); */ + debug0(DST, DD, "InsertAlternativeName returning."); +} /* end InsertAlternativeName */ + + +/*@::SearchSym(), SymName()@**************************************************/ +/* */ +/* OBJECT SearchSym(str, len) */ +/* */ +/* Search the symbol table for str, with length len, and return an */ +/* OBJECT referencing the entry if found. Otherwise return nilobj. */ +/* */ +/*****************************************************************************/ + +OBJECT SearchSym(FULL_CHAR *str, int len) +{ register int rlen, sum; + register FULL_CHAR *x, *y; + OBJECT p, q, link, plink, entry; + int s; + + debug2(DST, DDD, "SearchSym( %c..., %d )", str[0], len); + + hash(str, len, sum); + rlen = len; + entry = (OBJECT) &symtab[sum]; + for( plink = Down(entry); plink != entry; plink = NextDown(plink) ) + { Child(p, plink); + if( rlen == length(p) ) + { x = str; y = string(p); + do; while( *x++ == *y++ && --rlen ); + if( rlen == 0 ) + { + debug1(DST, DDD, " found %s", string(p)); + s = scope_top; + do + { s--; + for( link = Down(p); link != p; link = NextDown(link) ) + { Child(q, link); + { debugcond4(DST, DDD, enclosing(q) == scope[s], + " !npars_only[s] = %s, !vis_only[s] = %s, body_ok[s] = %s, !ss = %s", + bool(!npars_only[s]), bool(!vis_only[s]), bool(body_ok[s]), + bool(!suppress_scope)); + } + if( enclosing(q) == scope[s] + && (!npars_only[s] || type(q) == NPAR) + && (!vis_only[s] || visible(q) || suppress_visible ) + && (body_ok[s] || type(q)!=RPAR || !has_body(enclosing(q)) + || suppress_visible ) + && (!suppress_scope || StringEqual(string(p), KW_INCLUDE) || + StringEqual(string(p), KW_SYSINCLUDE)) + ) + { debug3(DST, DD, "SearchSym returning %s %s%%%s", + Image(type(q)), SymName(q), SymName(enclosing(q))); + return q; + } + } + } while( scope[s] != StartSym ); + } + } + rlen = len; + } + debug0(DST, DDD, "SearchSym returning <nilobj>"); + return nilobj; +} /* end SearchSym */ + + +/*****************************************************************************/ +/* */ +/* FULL_CHAR *SymName(s) */ +/* */ +/* Return the string value of the name of symbol s. */ +/* */ +/*****************************************************************************/ + +FULL_CHAR *SymName(OBJECT s) +{ OBJECT p; + if( s == nilobj ) return AsciiToFull("<nilobj>"); + Parent(p, Up(s)); + assert( is_word(type(p)), "SymName: !is_word(type(p))!" ); + return string(p); +} /* end SymName */ + + +/*@::FullSymName(), ChildSym()@***********************************************/ +/* */ +/* FULL_CHAR *FullSymName(x, str) */ +/* */ +/* Return the path name of symbol x. with str separating each entry. */ +/* */ +/*****************************************************************************/ + +FULL_CHAR *FullSymName(OBJECT x, FULL_CHAR *str) +{ OBJECT stack[20]; int i; + static FULL_CHAR buff[MAX_BUFF], *sname; + if( x == nilobj ) return AsciiToFull("<nilobj>"); + assert( enclosing(x) != nilobj, "FullSymName: enclosing(x) == nilobj!" ); + for( i = 0; enclosing(x) != nilobj && i < 20; i++ ) + { stack[i] = x; + x = enclosing(x); + } + StringCopy(buff, STR_EMPTY); + for( i--; i > 0; i-- ) + { sname = SymName(stack[i]); + if( StringLength(sname)+StringLength(str)+StringLength(buff) >= MAX_BUFF ) + Error(29, 8, "full name of symbol is too long", FATAL, &fpos(x)); + StringCat(buff, sname); + StringCat(buff, str); + } + sname = SymName(stack[0]); + if( StringLength(sname) + StringLength(buff) >= MAX_BUFF ) + Error(29, 9, "full name of symbol is too long", FATAL, &fpos(x)); + StringCat(buff, sname); + return buff; +} /* end FullSymName */ + + +/*****************************************************************************/ +/* */ +/* OBJECT ChildSym(s, typ) */ +/* */ +/* Find the child of symbol s of type typ, either LPAR or RPAR. */ +/* */ +/*****************************************************************************/ + +OBJECT ChildSym(OBJECT s, unsigned typ) +{ OBJECT link, y; + for( link = Down(s); link != s; link = NextDown(link) ) + { Child(y, link); + if( type(y) == typ && enclosing(y) == s ) return y; + } + Error(29, 10, "symbol %s has missing %s", FATAL, &fpos(s), + SymName(s), Image(typ)); + return nilobj; +} /* end ChildSym */ + + +/*****************************************************************************/ +/* */ +/* OBJECT ChildSymWithCode(s, code) */ +/* */ +/* Find the child of symbol s with the given npar code, else nil. */ +/* */ +/*****************************************************************************/ + +OBJECT ChildSymWithCode(OBJECT s, unsigned char code) +{ OBJECT link, y; + for( link = Down(actual(s)); link != actual(s); link = NextDown(link) ) + { Child(y, link); + if( type(y) == NPAR && enclosing(y) == actual(s) && npar_code(y) == code ) + return y; + } + Error(29, 11, "symbol %s has erroneous code %c (database out of date?)", + FATAL, &fpos(s), SymName(actual(s)), (char) code); + return nilobj; +} /* end ChildSym */ + + +/*@::CheckSymSpread(), DeleteSymBody()@***************************************/ +/* */ +/* CheckSymSpread() */ +/* */ +/* Check the spread of symbols through the hash table. */ +/* */ +/*****************************************************************************/ +#if DEBUG_ON + +void CheckSymSpread(void) +{ int i, j, sum, usum; OBJECT entry, plink; + debug2(DST, D, "Symbol table spread (table size = %d, symbols = %d):", + MAX_TAB, sym_count); + usum = sum = 0; + for( i = 0; i < MAX_TAB; i++ ) + { fprintf(stderr, "%4d: ", i); + for( j = 1; j <= sym_spread[i]; j++ ) + { fprintf(stderr, "."); + sum += j; + } + entry = (OBJECT) &symtab[i]; + for( plink=Down(entry), j=1; plink != entry; plink=NextDown(plink), j++ ) + { fprintf(stderr, "+"); + usum += j; + } + fprintf(stderr, "\n"); + } + fprintf(stderr, "average length counting duplicate names = %.1f\n", + (float) sum / sym_count); + fprintf(stderr, "average length not counting duplicate names = %.1f\n", + (float) usum / sym_count); +} /* end CheckSymSpread */ + + +/*****************************************************************************/ +/* */ +/* static DeleteSymBody(s) */ +/* */ +/* Delete the body of symbol s. */ +/* */ +/*****************************************************************************/ + +static void DeleteSymBody(OBJECT s) +{ OBJECT t; + debug1(DST, DDD, "DeleteSymBody( %s )", SymName(s)); + switch( type(s) ) + { + case MACRO: while( sym_body(s) != nilobj ) + { t = sym_body(s); + sym_body(s) = Delete(sym_body(s), PARENT); + Dispose(t); + } + break; + + case LPAR: + case NPAR: + case RPAR: + case LOCAL: if( sym_body(s) != nilobj ) DisposeObject(sym_body(s)); + break; + + default: assert1(FALSE, "DeleteSymBody:", Image(type(s))); + break; + } + debug0(DST, DDD, "DeleteSymBody returning."); +} /* end DeleteSymBody */ + + +/*@::DeleteEverySym()@********************************************************/ +/* */ +/* DeleteEverySym() */ +/* */ +/* Delete every symbol in the symbol table. */ +/* Note that we first delete all bodies, then the symbols themselves. */ +/* This is so that the closures within the bodies have well-defined */ +/* actual() pointers, even while the symbol table is being disposed. */ +/* If this is not done, debug output during the disposal gets confused. */ +/* */ +/*****************************************************************************/ + +void DeleteEverySym(void) +{ int i, j, load, cost; OBJECT p, plink, link, x, entry; + debug0(DST, DD, "DeleteEverySym()"); + + /* dispose the bodies of all symbols */ + for( i = 0; i < MAX_TAB; i++ ) + { entry = (OBJECT) &symtab[i]; + for( plink = Down(entry); plink != entry; plink = NextDown(plink) ) + { Child(p, plink); + for( link = Down(p); link != p; link = NextDown(link) ) + { Child(x, link); DeleteSymBody(x); + /* *** will not work now + while( base_uses(x) != nilobj ) + { tmp = base_uses(x); base_uses(x) = next(tmp); + PutMem(tmp, USES_SIZE); + } + while( uses(x) != nilobj ) + { tmp = uses(x); uses(x) = next(tmp); + PutMem(tmp, USES_SIZE); + } + *** */ + } + } + } + + /* dispose the symbol name strings, gather statistics, and print them */ + load = cost = 0; + for( i = 0; i < MAX_TAB; i++ ) + { j = 1; entry = (OBJECT) &symtab[i]; + while( Down(entry) != entry ) + { load += 1; cost += j; j += 1; + DisposeChild(Down(entry)); + } + } + if( load > 0 ) + { debug4(DST, DD, "size = %d, items = %d (%d%%), probes = %.1f", + MAX_TAB, load, (100*load)/MAX_TAB, (float) cost/load); + } + else + { debug1(DST, DD, "table size = %d, no entries in table", MAX_TAB); + } + debug0(DST, DD, "DeleteEverySym returning."); +} /* end DeleteEverySym */ +#endif |