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names.c
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3272 lines (3112 loc) · 88.9 KB
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/** @file names.c
*
* The complete names administration.
* All variables with a name have to pass here to be properly registered,
* have structs of the proper type assigned to them etc.
* The file also contains the utility routines for maintaining the
* balanced trees that make searching for names rather fast.
*/
/* #[ License : */
/*
* Copyright (C) 1984-2023 J.A.M. Vermaseren
* When using this file you are requested to refer to the publication
* J.A.M.Vermaseren "New features of FORM" math-ph/0010025
* This is considered a matter of courtesy as the development was paid
* for by FOM the Dutch physics granting agency and we would like to
* be able to track its scientific use to convince FOM of its value
* for the community.
*
* This file is part of FORM.
*
* FORM 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 3 of the License, or (at your option) any later
* version.
*
* FORM 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 FORM. If not, see <http://www.gnu.org/licenses/>.
*/
/* #] License : */
/*
#[ Includes :
*/
#include "form3.h"
/* EXTERNLOCK(dummylock) */
/*
#] Includes :
#[ GetNode :
*/
NAMENODE *GetNode(NAMETREE *nametree, UBYTE *name)
{
NAMENODE *n;
int node, newnode, i;
if ( nametree->namenode == 0 ) return(0);
newnode = nametree->headnode;
do {
node = newnode;
n = nametree->namenode+node;
if ( ( i = StrCmp(name,nametree->namebuffer+n->name) ) < 0 )
newnode = n->left;
else if ( i > 0 ) newnode = n->right;
else { return(n); }
} while ( newnode >= 0 );
return(0);
}
/*
#] GetNode :
#[ AddName :
*/
int AddName(NAMETREE *nametree, UBYTE *name, WORD type, WORD number, int *nodenum)
{
NAMENODE *n, *nn, *nnn;
UBYTE *s, *ss, *sss;
LONG *c1,*c2, j, newsize;
int node, newnode, node3, r, rr = 0, i, retval = 0;
if ( nametree->namenode == 0 ) {
s = name; i = 1; while ( *s ) { i++; s++; }
j = INITNAMESIZE;
if ( i > j ) j = i;
nametree->namenode = (NAMENODE *)Malloc1(INITNODESIZE*sizeof(NAMENODE),
"new nametree in AddName");
nametree->namebuffer = (UBYTE *)Malloc1(j,
"new namebuffer in AddName");
nametree->nodesize = INITNODESIZE;
nametree->namesize = j;
nametree->namefill = i;
nametree->nodefill = 1;
nametree->headnode = 0;
n = nametree->namenode;
n->parent = n->left = n->right = -1;
n->balance = 0;
n->type = type;
n->number = number;
n->name = 0;
s = name;
ss = nametree->namebuffer;
while ( *s ) *ss++ = *s++;
*ss = 0;
*nodenum = 0;
return(retval);
}
newnode = nametree->headnode;
do {
node = newnode;
n = nametree->namenode+node;
if ( StrCmp(name,nametree->namebuffer+n->name) < 0 ) {
newnode = n->left; r = -1;
}
else {
newnode = n->right; r = 1;
}
} while ( newnode >= 0 );
/*
We are at the insertion point. Add the node.
*/
if ( nametree->nodefill >= nametree->nodesize ) { /* Double allocation */
newsize = nametree->nodesize * 2;
if ( newsize > MAXINNAMETREE ) newsize = MAXINNAMETREE;
if ( nametree->nodefill >= MAXINNAMETREE ) {
MesPrint("!!!More than %l names in one object",(LONG)MAXINNAMETREE);
Terminate(-1);
}
nnn = (NAMENODE *)Malloc1(2*((LONG)newsize*sizeof(NAMENODE)),
"extra names in AddName");
c1 = (LONG *)nnn; c2 = (LONG *)nametree->namenode;
i = (nametree->nodefill * sizeof(NAMENODE))/sizeof(LONG);
while ( --i >= 0 ) *c1++ = *c2++;
M_free(nametree->namenode,"nametree->namenode");
nametree->namenode = nnn;
nametree->nodesize = newsize;
n = nametree->namenode+node;
}
*nodenum = newnode = nametree->nodefill++;
nn = nametree->namenode+newnode;
nn->parent = node;
if ( r < 0 ) n->left = newnode; else n->right = newnode;
nn->left = nn->right = -1;
nn->type = type;
nn->number = number;
nn->balance = 0;
i = 1; s = name; while ( *s ) { i++; s++; }
while ( nametree->namefill + i >= nametree->namesize ) { /* Double alloc */
sss = (UBYTE *)Malloc1(2*nametree->namesize,
"extra names in AddName");
s = sss; ss = nametree->namebuffer; j = nametree->namefill;
while ( --j >= 0 ) *s++ = *ss++;
M_free(nametree->namebuffer,"nametree->namebuffer");
nametree->namebuffer = sss;
nametree->namesize *= 2;
}
s = nametree->namebuffer+nametree->namefill;
nn->name = nametree->namefill;
retval = nametree->namefill;
nametree->namefill += i;
while ( *name ) *s++ = *name++;
*s = 0;
/*
Adjust the balance factors
*/
while ( node >= 0 ) {
n = nametree->namenode + node;
if ( newnode == n->left ) rr = -1;
else rr = 1;
if ( n->balance == -rr ) { n->balance = 0; return(retval); }
else if ( n->balance == rr ) break;
n->balance = rr;
newnode = node;
node = n->parent;
}
if ( node < 0 ) return(retval);
/*
We have to rebalance the tree. There are two basic operations.
n/node is the unbalanced node. newnode is its child.
rr is the old balance of n/node.
*/
nn = nametree->namenode + newnode;
if ( nn->balance == -rr ) { /* The difficult case */
if ( rr > 0 ) {
node3 = nn->left;
nnn = nametree->namenode + node3;
nnn->parent = n->parent;
n->parent = nn->parent = node3;
if ( nnn->right >= 0 ) nametree->namenode[nnn->right].parent = newnode;
if ( nnn->left >= 0 ) nametree->namenode[nnn->left].parent = node;
n->right = nnn->left; nnn->left = node;
nn->left = nnn->right; nnn->right = newnode;
if ( nnn->balance > 0 ) { n->balance = -1; nn->balance = 0; }
else if ( nnn->balance == 0 ) { n->balance = nn->balance = 0; }
else { nn->balance = 1; n->balance = 0; }
}
else {
node3 = nn->right;
nnn = nametree->namenode + node3;
nnn->parent = n->parent;
n->parent = nn->parent = node3;
if ( nnn->right >= 0 ) nametree->namenode[nnn->right].parent = node;
if ( nnn->left >= 0 ) nametree->namenode[nnn->left].parent = newnode;
n->left = nnn->right; nnn->right = node;
nn->right = nnn->left; nnn->left = newnode;
if ( nnn->balance < 0 ) { n->balance = 1; nn->balance = 0; }
else if ( nnn->balance == 0 ) { n->balance = nn->balance = 0; }
else { nn->balance = -1; n->balance = 0; }
}
nnn->balance = 0;
if ( nnn->parent >= 0 ) {
nn = nametree->namenode + nnn->parent;
if ( node == nn->left ) nn->left = node3;
else nn->right = node3;
}
if ( node == nametree->headnode ) nametree->headnode = node3;
}
else if ( nn->balance == rr ) { /* The easy case */
nn->parent = n->parent; n->parent = newnode;
if ( rr > 0 ) {
if ( nn->left >= 0 ) nametree->namenode[nn->left].parent = node;
n->right = nn->left; nn->left = node;
}
else {
if ( nn->right >= 0 ) nametree->namenode[nn->right].parent = node;
n->left = nn->right; nn->right = node;
}
if ( nn->parent >= 0 ) {
nnn = nametree->namenode + nn->parent;
if ( node == nnn->left ) nnn->left = newnode;
else nnn->right = newnode;
}
nn->balance = n->balance = 0;
if ( node == nametree->headnode ) nametree->headnode = newnode;
}
#ifdef DEBUGON
else { /* Cannot be. Code here for debugging only */
MesPrint("We ran into an impossible case in AddName\n");
DumpTree(nametree);
Terminate(-1);
}
#endif
return(retval);
}
/*
#] AddName :
#[ GetName :
When AutoDeclare is an active statement.
If par == WITHAUTO and the variable is not found we have to check:
1: that nametree != AC.exprnames && nametree != AC.dollarnames
2: check that the variable is not in AC.exprnames after all.
3: call GetAutoName and return its values.
*/
int GetName(NAMETREE *nametree, UBYTE *namein, WORD *number, int par)
{
NAMENODE *n;
int node, newnode, i;
UBYTE *s, *t, *u, *name;
/* name = ConstructName(namein,0); */
name = namein;
if ( nametree->namenode == 0 || nametree->namefill == 0 ) goto NotFound;
newnode = nametree->headnode;
do {
node = newnode;
n = nametree->namenode+node;
if ( ( i = StrCmp(name,nametree->namebuffer+n->name) ) < 0 )
newnode = n->left;
else if ( i > 0 ) newnode = n->right;
else {
*number = n->number;
return(n->type);
}
} while ( newnode >= 0 );
s = name;
while ( *s ) s++;
if ( s > name && s[-1] == '_' && nametree == AC.varnames ) {
/*
The Kronecker delta d_ is very special. It is not really a function.
*/
if ( s == name+2 && ( *name == 'd' || *name == 'D' ) ) {
*number = DELTA-FUNCTION;
return(CDELTA);
}
/*
Test for N#_? type variables (summed indices)
*/
if ( s > name+2 && *name == 'N' ) {
t = name+1; i = 0;
while ( FG.cTable[*t] == 1 ) i = 10*i + *t++ -'0';
if ( s == t+1 ) {
*number = i + AM.IndDum - AM.OffsetIndex;
return(CINDEX);
}
}
/*
Now test for any built in object
*/
newnode = nametree->headnode;
do {
node = newnode;
n = nametree->namenode+node;
if ( ( i = StrHICmp(name,nametree->namebuffer+n->name) ) < 0 )
newnode = n->left;
else if ( i > 0 ) newnode = n->right;
else {
*number = n->number; return(n->type);
}
} while ( newnode >= 0 );
/*
Now we test for the extra symbols of the type STR###_
The string sits in AC.extrasym and is followed by digits.
The name is only legal if the number is in the
range 1,...,cbuf[AM.sbufnum].numrhs
*/
t = name; u = AC.extrasym;
while ( *t == *u ) { t++; u++; }
if ( *u == 0 && *t != 0 ) { /* potential hit */
WORD x = 0;
while ( FG.cTable[*t] == 1 ) {
x = 10*x + (*t++ - '0');
}
if ( *t == '_' && x > 0 && x <= cbuf[AM.sbufnum].numrhs ) { /* Hit */
*number = MAXVARIABLES-x;
return(CSYMBOL);
}
}
}
NotFound:;
if ( par != WITHAUTO || nametree == AC.autonames ) return(NAMENOTFOUND);
return(GetAutoName(name,number));
}
/*
#] GetName :
#[ GetFunction :
Gets either a function or a $ that should expand into a function
during runtime. In the case of the $ the value in funnum is -dolnum-1.
The return value is the position after the name of the function or the $.
*/
static WORD one = 1;
UBYTE *GetFunction(UBYTE *s,WORD *funnum)
{
int type;
WORD numfun;
UBYTE *t1, c;
if ( *s == '$' ) {
t1 = s+1; while ( FG.cTable[*t1] < 2 ) t1++;
c = *t1; *t1 = 0;
if ( ( type = GetName(AC.dollarnames,s+1,&numfun,NOAUTO) ) == CDOLLAR ) {
*funnum = -numfun-2;
}
else {
MesPrint("&%s is undefined",s);
numfun = AddDollar(s+1,DOLINDEX,&one,1);
*funnum = 0;
}
}
else {
t1 = SkipAName(s);
c = *t1; *t1 = 0;
if ( ( ( type = GetName(AC.varnames,s,&numfun,WITHAUTO) ) != CFUNCTION )
|| ( functions[numfun].spec > 0 ) ) {
MesPrint("&%s should be a regular function",s);
*funnum = 0;
if ( type < 0 ) {
if ( GetName(AC.exprnames,s,&numfun,NOAUTO) == NAMENOTFOUND )
AddFunction(s,0,0,0,0,0,-1,-1);
}
*t1 = c;
return(t1);
}
*funnum = numfun+FUNCTION;
}
*t1 = c;
return(t1);
}
/*
#] GetFunction :
#[ GetNumber :
Gets either a number or a $ that should expand into a number
during runtime. In the case of the $ the value in num is -dolnum-2.
The return value is the position after the number or the $.
*/
UBYTE *GetNumber(UBYTE *s,WORD *num)
{
int type;
WORD numfun;
UBYTE *t1, c;
while ( *s == '+' ) s++;
if ( *s == '$' ) {
t1 = s+1; while ( FG.cTable[*t1] < 2 ) t1++;
c = *t1; *t1 = 0;
if ( ( type = GetName(AC.dollarnames,s+1,&numfun,NOAUTO) ) == CDOLLAR ) {
*num = -numfun-2;
}
else {
MesPrint("&%s is undefined",s);
numfun = AddDollar(s+1,DOLINDEX,&one,1);
*num = -1;
}
}
else if ( *s >= '0' && *s <= '9' ) {
ULONG x = *s++ - '0';
while ( *s >= '0' && *s <= '9' ) { x = 10*x + (*s++-'0'); }
t1 = s;
if ( x >= MAXPOSITIVE ) goto illegal;
*num = (WORD)x;
return(t1);
}
else {
if ( *s == '-' ) { s++; }
if ( *s >= '0' && *s <= '9' ) { while ( *s >= '0' && *s <= '9' ) s++; t1 = s; }
else { t1 = SkipAName(s); }
illegal:
*num = -1;
MesPrint("&Illegal option in Canonicalize statement. Should be a nonnegative number or $ variable.");
return(t1);
}
*t1 = c;
return(t1);
}
/*
#] GetNumber :
#[ GetLastExprName :
When AutoDeclare is an active statement.
If par == WITHAUTO and the variable is not found we have to check:
1: that nametree != AC.exprnames && nametree != AC.dollarnames
2: check that the variable is not in AC.exprnames after all.
3: call GetAutoName and return its values.
*/
int GetLastExprName(UBYTE *name, WORD *number)
{
int i;
EXPRESSIONS e;
for ( i = NumExpressions; i > 0; i-- ) {
e = Expressions+i-1;
if ( StrCmp(AC.exprnames->namebuffer+e->name,name) == 0 ) {
*number = i-1;
return(1);
}
}
return(0);
}
/*
#] GetLastExprName :
#[ GetOName :
Adds the proper offsets, so we do not have to do that in the calling
routine.
*/
int GetOName(NAMETREE *nametree, UBYTE *name, WORD *number, int par)
{
int retval = GetName(nametree,name,number,par);
switch ( retval ) {
case CVECTOR: *number += AM.OffsetVector; break;
case CINDEX: *number += AM.OffsetIndex; break;
case CFUNCTION: *number += FUNCTION; break;
default: break;
}
return(retval);
}
/*
#] GetOName :
#[ GetAutoName :
This routine gets the automatic declarations
*/
int GetAutoName(UBYTE *name, WORD *number)
{
UBYTE *s, c;
int type;
if ( GetName(AC.exprnames,name,number,NOAUTO) != NAMENOTFOUND )
return(NAMENOTFOUND);
s = name;
while ( *s ) { s++; }
if ( s[-1] == '_' ) {
return(NAMENOTFOUND);
}
while ( s > name ) {
c = *s; *s = 0;
type = GetName(AC.autonames,name,number,NOAUTO);
*s = c;
switch(type) {
case CSYMBOL: {
SYMBOLS sym = ((SYMBOLS)(AC.AutoSymbolList.lijst)) + *number;
*number = AddSymbol(name,sym->minpower,sym->maxpower,sym->complex,sym->dimension);
return(type); }
case CVECTOR: {
VECTORS vec = ((VECTORS)(AC.AutoVectorList.lijst)) + *number;
*number = AddVector(name,vec->complex,vec->dimension);
return(type); }
case CINDEX: {
INDICES ind = ((INDICES)(AC.AutoIndexList.lijst)) + *number;
*number = AddIndex(name,ind->dimension,ind->nmin4);
return(type); }
case CFUNCTION: {
FUNCTIONS fun = ((FUNCTIONS)(AC.AutoFunctionList.lijst)) + *number;
*number = AddFunction(name,fun->commute,fun->spec,fun->complex,fun->symmetric,fun->dimension,fun->maxnumargs,fun->minnumargs);
return(type); }
default:
break;
}
s--;
}
return(NAMENOTFOUND);
}
/*
#] GetAutoName :
#[ GetVar :
*/
int GetVar(UBYTE *name, WORD *type, WORD *number, int wantedtype, int par)
{
WORD funnum;
int typ;
if ( ( typ = GetName(AC.varnames,name,number,par) ) != wantedtype ) {
if ( typ != NAMENOTFOUND ) {
if ( wantedtype == -1 ) {
*type = typ;
return(1);
}
NameConflict(typ,name);
MakeDubious(AC.varnames,name,&funnum);
return(-1);
}
if ( ( typ = GetName(AC.exprnames,name,&funnum,par) ) != NAMENOTFOUND ) {
if ( typ == wantedtype || wantedtype == -1 ) {
*number = funnum; *type = typ; return(1);
}
NameConflict(typ,name);
return(-1);
}
return(NAMENOTFOUND);
}
if ( typ == -1 ) { return(0); }
*type = typ;
return(1);
}
/*
#] GetVar :
#[ EntVar :
*/
int EntVar(WORD type, UBYTE *name, WORD x, WORD y, WORD z, WORD d)
{
switch ( type ) {
case CSYMBOL:
return(AddSymbol(name,y,z,x,d));
break;
case CINDEX:
return(AddIndex(name,x,z));
break;
case CVECTOR:
return(AddVector(name,x,d));
break;
case CFUNCTION:
return(AddFunction(name,y,z,x,0,d,-1,-1));
break;
case CSET:
AC.SetList.numtemp++;
return(AddSet(name,d));
break;
case CEXPRESSION:
return(AddExpression(name,x,y));
break;
default:
break;
}
return(-1);
}
/*
#] EntVar :
#[ GetDollar :
*/
int GetDollar(UBYTE *name)
{
WORD number;
if ( GetName(AC.dollarnames,name,&number,NOAUTO) == NAMENOTFOUND ) return(-1);
return((int)number);
}
/*
#] GetDollar :
#[ DumpTree :
*/
void DumpTree(NAMETREE *nametree)
{
if ( nametree->headnode >= 0
&& nametree->namebuffer && nametree->namenode ) {
DumpNode(nametree,nametree->headnode,0);
}
}
/*
#] DumpTree :
#[ DumpNode :
*/
void DumpNode(NAMETREE *nametree, WORD node, WORD depth)
{
NAMENODE *n;
int i;
char *name;
n = nametree->namenode + node;
if ( n->left >= 0 ) DumpNode(nametree,n->left,depth+1);
for ( i = 0; i < depth; i++ ) printf(" ");
name = (char *)(nametree->namebuffer+n->name);
printf("%s(%d): {%d}(%d)(%d)[%d]\n",
name,node,n->parent,n->left,n->right,n->balance);
if ( n->right >= 0 ) DumpNode(nametree,n->right,depth+1);
}
/*
#] DumpNode :
#[ CompactifyTree :
*/
int CompactifyTree(NAMETREE *nametree,WORD par)
{
NAMETREE newtree;
NAMENODE *n;
LONG i, j, ns, k;
UBYTE *s;
for ( i = 0, j = 0, k = 0, n = nametree->namenode, ns = 0;
i < nametree->nodefill; i++, n++ ) {
if ( n->type != CDELETE ) {
s = nametree->namebuffer+n->name;
while ( *s ) { s++; ns++; }
j++;
}
else k++;
}
if ( k == 0 ) return(0);
if ( j == 0 ) {
if ( nametree->namebuffer ) M_free(nametree->namebuffer,"nametree->namebuffer");
if ( nametree->namenode ) M_free(nametree->namenode,"nametree->namenode");
nametree->namebuffer = 0;
nametree->namenode = 0;
nametree->namesize = nametree->namefill =
nametree->nodesize = nametree->nodefill =
nametree->oldnamefill = nametree->oldnodefill = 0;
nametree->globalnamefill = nametree->globalnodefill =
nametree->clearnamefill = nametree->clearnodefill = 0;
nametree->headnode = -1;
return(0);
}
ns += j;
if ( j < 10 ) j = 10;
if ( ns < 100 ) ns = 100;
newtree.namenode = (NAMENODE *)Malloc1(2*j*sizeof(NAMENODE),"compactify namestree");
newtree.nodefill = 0; newtree.nodesize = 2*j;
newtree.namebuffer = (UBYTE *)Malloc1(2*ns,"compactify namestree");
newtree.namefill = 0; newtree.namesize = 2*ns;
CopyTree(&newtree,nametree,nametree->headnode,par);
newtree.namenode[newtree.nodefill>>1].parent = -1;
LinkTree(&newtree,(WORD)0,newtree.nodefill);
newtree.headnode = newtree.nodefill >> 1;
M_free(nametree->namebuffer,"nametree->namebuffer");
M_free(nametree->namenode,"nametree->namenode");
nametree->namebuffer = newtree.namebuffer;
nametree->namenode = newtree.namenode;
nametree->namesize = newtree.namesize;
nametree->namefill = newtree.namefill;
nametree->nodesize = newtree.nodesize;
nametree->nodefill = newtree.nodefill;
nametree->oldnamefill = newtree.namefill;
nametree->oldnodefill = newtree.nodefill;
nametree->headnode = newtree.headnode;
/* DumpTree(nametree); */
return(0);
}
/*
#] CompactifyTree :
#[ CopyTree :
*/
void CopyTree(NAMETREE *newtree, NAMETREE *oldtree, WORD node, WORD par)
{
NAMENODE *n, *m;
UBYTE *s, *t;
n = oldtree->namenode+node;
if ( n->left >= 0 ) CopyTree(newtree,oldtree,n->left,par);
if ( n->type != CDELETE ) {
m = newtree->namenode+newtree->nodefill;
m->type = n->type;
m->number = n->number;
m->name = newtree->namefill;
m->left = m->right = -1;
m->balance = 0;
switch ( n->type ) {
case CSYMBOL:
if ( par == AUTONAMES ) {
autosymbols[n->number].name = newtree->namefill;
autosymbols[n->number].node = newtree->nodefill;
}
else {
symbols[n->number].name = newtree->namefill;
symbols[n->number].node = newtree->nodefill;
}
break;
case CINDEX :
if ( par == AUTONAMES ) {
autoindices[n->number].name = newtree->namefill;
autoindices[n->number].node = newtree->nodefill;
}
else {
indices[n->number].name = newtree->namefill;
indices[n->number].node = newtree->nodefill;
}
break;
case CVECTOR:
if ( par == AUTONAMES ) {
autovectors[n->number].name = newtree->namefill;
autovectors[n->number].node = newtree->nodefill;
}
else {
vectors[n->number].name = newtree->namefill;
vectors[n->number].node = newtree->nodefill;
}
break;
case CFUNCTION:
if ( par == AUTONAMES ) {
autofunctions[n->number].name = newtree->namefill;
autofunctions[n->number].node = newtree->nodefill;
}
else {
functions[n->number].name = newtree->namefill;
functions[n->number].node = newtree->nodefill;
}
break;
case CSET:
Sets[n->number].name = newtree->namefill;
Sets[n->number].node = newtree->nodefill;
break;
case CEXPRESSION:
Expressions[n->number].name = newtree->namefill;
Expressions[n->number].node = newtree->nodefill;
break;
case CDUBIOUS:
Dubious[n->number].name = newtree->namefill;
Dubious[n->number].node = newtree->nodefill;
break;
case CDOLLAR:
Dollars[n->number].name = newtree->namefill;
Dollars[n->number].node = newtree->nodefill;
break;
default:
MesPrint("Illegal variable type in CopyTree: %d",n->type);
break;
}
newtree->nodefill++;
s = newtree->namebuffer + newtree->namefill;
t = oldtree->namebuffer + n->name;
while ( *t ) { *s++ = *t++; newtree->namefill++; }
*s = 0; newtree->namefill++;
}
if ( n->right >= 0 ) CopyTree(newtree,oldtree,n->right,par);
}
/*
#] CopyTree :
#[ LinkTree :
*/
void LinkTree(NAMETREE *tree, WORD offset, WORD numnodes)
{
/*
Makes the tree into a binary tree
*/
int med,numleft,numright,medleft,medright;
med = numnodes >> 1;
numleft = med;
numright = numnodes - med - 1;
medleft = numleft >> 1;
medright = ( numright >> 1 ) + med + 1;
if ( numleft > 0 ) {
tree->namenode[offset+med].left = offset+medleft;
tree->namenode[offset+medleft].parent = offset+med;
}
if ( numright > 0 ) {
tree->namenode[offset+med].right = offset+medright;
tree->namenode[offset+medright].parent = offset+med;
}
if ( numleft > 0 ) LinkTree(tree,offset,numleft);
if ( numright > 0 ) LinkTree(tree,offset+med+1,numright);
while ( numleft && numright ) { numleft >>= 1; numright >>= 1; }
if ( numleft ) tree->namenode[offset+med].balance = -1;
else if ( numright ) tree->namenode[offset+med].balance = 1;
}
/*
#] LinkTree :
#[ MakeNameTree :
*/
NAMETREE *MakeNameTree(void)
{
NAMETREE *n;
n = (NAMETREE *)Malloc1(sizeof(NAMETREE),"new nametree");
n->namebuffer = 0;
n->namenode = 0;
n->namesize = n->namefill = n->nodesize = n->nodefill =
n->oldnamefill = n->oldnodefill = 0;
n->globalnamefill = n->globalnodefill =
n->clearnamefill = n->clearnodefill = 0;
n->headnode = -1;
return(n);
}
/*
#] MakeNameTree :
#[ FreeNameTree :
*/
void FreeNameTree(NAMETREE *n)
{
if ( n ) {
if ( n->namebuffer ) M_free(n->namebuffer,"nametree->namebuffer");
if ( n->namenode ) M_free(n->namenode,"nametree->namenode");
M_free(n,"nametree");
}
}
/*
#] FreeNameTree :
#[ WildcardNames :
*/
void ClearWildcardNames(void)
{
AC.NumWildcardNames = 0;
}
int AddWildcardName(UBYTE *name)
{
GETIDENTITY
int size = 0, tocopy, i;
UBYTE *s = name, *t, *newbuffer;
while ( *s ) { s++; size++; }
for ( i = 0, t = AC.WildcardNames; i < AC.NumWildcardNames; i++ ) {
s = name;
while ( ( *s == *t ) && *s ) { s++; t++; }
if ( *s == 0 && *t == 0 ) return(i+1);
while ( *t ) t++;
t++;
}
tocopy = t - AC.WildcardNames;
if ( tocopy + size + 1 > AC.WildcardBufferSize ) {
if ( AC.WildcardBufferSize == 0 ) {
AC.WildcardBufferSize = size+1;
if ( AC.WildcardBufferSize < 100 ) AC.WildcardBufferSize = 100;
}
else if ( size+1 >= AC.WildcardBufferSize ) {
AC.WildcardBufferSize += size+1;
}
else {
AC.WildcardBufferSize *= 2;
}
newbuffer = (UBYTE *)Malloc1((LONG)AC.WildcardBufferSize,"argument list names");
t = newbuffer;
if ( AC.WildcardNames ) {
s = AC.WildcardNames;
while ( tocopy > 0 ) { *t++ = *s++; tocopy--; }
M_free(AC.WildcardNames,"AC.WildcardNames");
}
AC.WildcardNames = newbuffer;
M_free(AT.WildArgTaken,"AT.WildArgTaken");
AT.WildArgTaken = (WORD *)Malloc1((LONG)AC.WildcardBufferSize*sizeof(WORD)/2
,"argument list names");
}
s = name;
while ( *s ) *t++ = *s++;
*t = 0;
AC.NumWildcardNames++;
return(AC.NumWildcardNames);
}
int GetWildcardName(UBYTE *name)
{
UBYTE *s, *t;
int i;
for ( i = 0, t = AC.WildcardNames; i < AC.NumWildcardNames; i++ ) {
s = name;
while ( ( *s == *t ) && *s ) { s++; t++; }
if ( *s == 0 && *t == 0 ) return(i+1);
while ( *t ) t++;
t++;
}
return(0);
}
/*
#] WildcardNames :
#[ AddSymbol :
The actual addition. Special routine for additions 'on the fly'
*/
int AddSymbol(UBYTE *name, int minpow, int maxpow, int cplx, int dim)
{
int nodenum, numsymbol = AC.Symbols->num;
UBYTE *s = name;
SYMBOLS sym = (SYMBOLS)FromVarList(AC.Symbols);
bzero(sym,sizeof(struct SyMbOl));
sym->name = AddName(*AC.activenames,name,CSYMBOL,numsymbol,&nodenum);
sym->minpower = minpow;
sym->maxpower = maxpow;
sym->complex = cplx;
sym->flags = 0;
sym->node = nodenum;
sym->dimension= dim;
while ( *s ) s++;
sym->namesize = (s-name)+1;
return(numsymbol);
}
/*
#] AddSymbol :
#[ CoSymbol :
Symbol declarations. name[#{R|I|C}][([min]:[max])]
Note that we know already that the parentheses match properly
*/
int CoSymbol(UBYTE *s)
{
int type, error = 0, minpow, maxpow, cplx, sgn, dim;
WORD numsymbol;
UBYTE *name, *oldc, c, cc;
do {
minpow = -MAXPOWER;
maxpow = MAXPOWER;
cplx = 0;
dim = 0;
name = s;
if ( ( s = SkipAName(s) ) == 0 ) {
IllForm: MesPrint("&Illegally formed name in symbol statement");
error = 1;
s = SkipField(name,0);
goto eol;
}
oldc = s; cc = c = *s; *s = 0;
if ( TestName(name) ) { *s = c; goto IllForm; }
if ( cc == '#' ) {
s++;
if ( tolower(*s) == 'r' ) cplx = VARTYPENONE;
else if ( tolower(*s) == 'c' ) cplx = VARTYPECOMPLEX;
else if ( tolower(*s) == 'i' ) cplx = VARTYPEIMAGINARY;
else if ( ( ( *s == '-' || *s == '+' || *s == '=' )
&& ( s[1] >= '0' && s[1] <= '9' ) )
|| ( *s >= '0' && *s <= '9' ) ) {
LONG x;
sgn = 0;
if ( *s == '-' ) { sgn = VARTYPEMINUS; s++; }
else if ( *s == '+' || *s == '=' ) { sgn = 0; s++; }
x = *s -'0';
while ( s[1] >= '0' && s[1] <= '9' ) {
x = 10*x + (s[1] - '0'); s++;
}
if ( x >= MAXPOWER || x <= 1 ) {
MesPrint("&Illegal value for root of unity %s",name);
error = 1;
}
else {
maxpow = x;
}
cplx = VARTYPEROOTOFUNITY | sgn;
}
else {
MesPrint("&Illegal specification for complexity of symbol %s",name);
*oldc = c;
error = 1;
s = SkipField(s,0);
goto eol;
}
s++; cc = *s;
}
if ( cc == '{' ) {
s++;