/* This routine will free any child nodes, and then free itself */
static void exprValListFreeData(exprVal * val)
{
exprVal *next;
while (val) {
/* Remember the next */
next = val->next;
/* Free name */
exprFreeMem(val->vname);
/* Free ourself */
exprFreeMem(val);
val = next;
}
}
/* This routine will free the value list */
int exprValListFree(exprValList * vlist)
{
/* Make sure it exists, if not it is not error */
if (vlist == NULL)
return EXPR_ERROR_NOERROR;
/* Free the nodes */
exprValListFreeData(vlist->head);
/* Freethe container */
exprFreeMem(vlist);
return EXPR_ERROR_NOERROR;
}
/* This routine will free the function list */
int exprFuncListFree(exprFuncList *f)
{
/* Make sure it exists, if not it is not error */
if(f == NULL)
return EXPR_ERROR_NOERROR;
/* Free the nodes */
if(f->head)
{
exprFuncListFreeData(f->head);
/* Freethe container */
exprFreeMem(f);
}
return EXPR_ERROR_NOERROR;
}
/* This routine will create the function object */
exprFunc *exprCreateFunc(exprFuncType ptr, char *name, int min, int max, int refmin, int refmax)
{
exprFunc *tmp;
char *vtmp;
/* Make sure the name is valid */
if(!exprValidIdent(name))
return NULL;
/* Create it */
tmp = exprAllocMem(sizeof(exprFunc));
if(tmp == NULL)
return NULL;
/* Allocate space for the name */
vtmp = exprAllocMem(strlen(name) + 1);
if(vtmp == NULL)
{
exprFreeMem(tmp);
return NULL;
}
/* Set the memory to zero */
memset(tmp, 0, sizeof(exprFunc));
/* Copy the data over */
strcpy(vtmp, name);
tmp->fname = vtmp;
tmp->fptr = ptr;
tmp->min = min;
tmp->max = max;
tmp->refmin = refmin;
tmp->refmax = refmax;
return tmp;
}
/* Function will parse a call to a function */
int exprInternalParseFunction(exprObj *obj, exprNode *node, exprToken *tokens, int start, int end, int p1, int p2)
{
int pos;
int num, cur;
int refnum, refcur;
int plevel = 0;
int lv, err;
exprNode *tmp;
exprFuncType fptr;
int argmin, argmax;
int refargmin, refargmax;
int type;
exprFuncList *l;
exprValList *vars;
EXPRTYPE *addr;
EXPRTYPE **reftmp;
/* We should have a function list */
l = exprGetFuncList(obj);
if(l == NULL)
return EXPR_ERROR_NOSUCHFUNCTION;
/* check paren. location */
if(p2 <= p1)
return EXPR_ERROR_SYNTAX;
/* second paren. should not be after the end */
if(p2 > end)
return EXPR_ERROR_SYNTAX;
/* Item before parenthesis should be an identifier */
if(tokens[p1 - 1].type != EXPR_TOKEN_IDENTIFIER)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p1].end;
return EXPR_ERROR_SYNTAX;
}
/* Look up the function */
err = exprFuncListGet(l, tokens[p1 - 1].data.str, &fptr, &type, &argmin, &argmax, &refargmin, &refargmax);
if(err != EXPR_ERROR_NOERROR)
{
if(err == EXPR_ERROR_NOTFOUND)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p1 - 1].end;
return EXPR_ERROR_NOSUCHFUNCTION;
}
else
return err;
}
/* Make sure the function exists */
if(fptr == NULL && type == 0)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p1 - 1].end;
return EXPR_ERROR_NOSUCHFUNCTION;
}
/* Count arguments */
if(p2 == p1 + 1)
{
num = 0;
refnum = 0;
}
else
{
num = 1;
refnum = 0;
/* count commas */
for(pos = p1 + 1; pos < p2; pos++)
{
switch(tokens[pos].type)
{
case EXPR_TOKEN_OPAREN:
plevel++;
break;
case EXPR_TOKEN_CPAREN:
plevel--;
if(plevel < 0)
{
obj->starterr = tokens[pos].start;
obj->enderr = tokens[pos].end;
return EXPR_ERROR_UNMATCHEDPAREN;
}
break;
case EXPR_TOKEN_COMMA:
/* Found comma */
if(plevel == 0)
num++;
break;
case EXPR_TOKEN_AMPERSAND:
/* Found reference mark */
if(plevel == 0)
{
/* This may only occur after the open parenthesis or comma */
if(tokens[pos - 1].type == EXPR_TOKEN_OPAREN || tokens[pos - 1].type == EXPR_TOKEN_COMMA)
refnum++;
else
return EXPR_ERROR_SYNTAX;
}
break;
}
}
/* plevel should be zero */
if(plevel != 0)
return EXPR_ERROR_UNMATCHEDPAREN;
}
/* We now have the number of total arguments and
number of ref arguments. Get number of normal
arguments */
num = num - refnum;
/* Make sure number of arguments is correct */
/* Here we make sure the limits are greater
or equal to zero because any negative number
could be used to specify no limit */
if(argmin >= 0 && num < argmin)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p2].end;
return EXPR_ERROR_BADNUMBERARGUMENTS;
}
if(argmax >= 0 && num > argmax)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p2].end;
return EXPR_ERROR_BADNUMBERARGUMENTS;
}
if(refargmin >= 0 && refnum < refargmin)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p2].end;
return EXPR_ERROR_BADNUMBERARGUMENTS;
}
if(refargmax >= 0 && refnum > refargmax)
{
obj->starterr = tokens[p1 - 1].start;
obj->enderr = tokens[p2].end;
return EXPR_ERROR_BADNUMBERARGUMENTS;
}
/* Set tmp to null in case of no arguments */
tmp = NULL;
reftmp = NULL;
if(num > 0)
{
/* Allocate subnodes */
tmp = exprAllocNodes(num);
if(tmp == NULL)
return EXPR_ERROR_MEMORY;
}
if(refnum > 0)
{
/* Allocate ref pointers */
reftmp = exprAllocMem(sizeof(EXPRTYPE*) * refnum);
if(reftmp == NULL)
{
exprFreeMem(tmp);
return EXPR_ERROR_MEMORY;
}
}
/* Set this node's data */
node->type = EXPR_NODETYPE_FUNCTION;
node->data.function.fptr = fptr;
node->data.function.nodecount = num;
node->data.function.nodes = tmp;
node->data.function.refcount = refnum;
node->data.function.refs = reftmp;
node->data.function.type = type;
/* parse each subnode */
if(num + refnum > 0)
{
plevel = 0;
cur = 0;
refcur = 0;
lv = p1 + 1;
/* look for commas if more than 1 arg */
if(num + refnum > 1)
{
for(pos = p1 + 1; pos < p2; pos++)
{
switch(tokens[pos].type)
{
case EXPR_TOKEN_OPAREN:
plevel++;
break;
case EXPR_TOKEN_CPAREN:
plevel--;
break; /* Already checked paren nesting above */
case EXPR_TOKEN_COMMA:
/* Found comma */
if(plevel == 0)
{
/* parse inside */
if(tokens[lv].type == EXPR_TOKEN_AMPERSAND)
{
if(lv != pos - 2)
{
obj->starterr = tokens[lv].start;
obj->enderr = tokens[pos].end;
return EXPR_ERROR_SYNTAX;
}
/* It is a reference */
if(tokens[lv + 1].type != EXPR_TOKEN_IDENTIFIER)
{
obj->starterr = tokens[lv].start;
obj->enderr = tokens[lv + 1].end;
return EXPR_ERROR_SYNTAX;
}
/* Make sure it is not a constant */
vars = exprGetConstList(obj);
if(vars)
{
exprValListGetAddress(vars, tokens[lv + 1].data.str, &addr);
if(addr)
{
obj->starterr = tokens[lv].start;
obj->enderr = tokens[lv + 1].start;
return EXPR_ERROR_REFCONSTANT;
}
}
/* Get variable list */
vars = exprGetVarList(obj);
if(vars == NULL)
return EXPR_ERROR_NOVARLIST;
/* Get variable address */
exprValListGetAddress(vars, tokens[lv + 1].data.str, &addr);
if(addr == NULL)
{
/* Add variable to list */
exprValListAdd(vars, tokens[lv + 1].data.str, 0.0);
/* Try to get address again */
exprValListGetAddress(vars, tokens[lv + 1].data.str, &addr);
if(addr == NULL)
return EXPR_ERROR_MEMORY; /* Could not add variable */
}
/* Set reference item */
reftmp[refcur] = addr;
/* increase ref arg number and lv position*/
refcur++;
lv = pos + 1;
}
else
{
err = exprInternalParse(obj, &(tmp[cur]), tokens, lv, pos - 1);
if(err != EXPR_ERROR_NOERROR)
return err;
/* increase arg number and lv position*/
lv = pos + 1;
cur++;
}
}
break;
}
}
}
/* lv should point after the last comma, or open paren. if only 1 arg */
if(tokens[lv].type == EXPR_TOKEN_AMPERSAND)
{
if(lv != p2 - 2)
{
obj->starterr = tokens[lv].start;
obj->enderr = tokens[p2].end;
return EXPR_ERROR_SYNTAX;
}
/* It is a reference */
if(tokens[lv + 1].type != EXPR_TOKEN_IDENTIFIER)
{
obj->starterr = tokens[lv].start;
obj->enderr = tokens[lv + 1].end;
return EXPR_ERROR_SYNTAX;
}
/* Make sure it is not a constant */
vars = exprGetConstList(obj);
if(vars)
{
exprValListGetAddress(vars, tokens[lv + 1].data.str, &addr);
if(addr)
{
obj->starterr = tokens[lv].start;
obj->enderr = tokens[lv + 1].start;
return EXPR_ERROR_REFCONSTANT;
}
}
/* Get variable list */
vars = exprGetVarList(obj);
if(vars == NULL)
return EXPR_ERROR_NOVARLIST;
/* Get variable address */
exprValListGetAddress(vars, tokens[lv + 1].data.str, &addr);
if(addr == NULL)
{
/* Add variable to list */
exprValListAdd(vars, tokens[lv + 1].data.str, 0.0);
/* Try to get address again */
exprValListGetAddress(vars, tokens[lv + 1].data.str, &addr);
if(addr == NULL)
return EXPR_ERROR_MEMORY; /* Could not add variable */
}
/* Set reference item */
reftmp[refcur] = addr;
}
else
{
err = exprInternalParse(obj, &(tmp[cur]), tokens, lv, p2 - 1);
if(err != EXPR_ERROR_NOERROR)
return err;
}
}
return EXPR_ERROR_NOERROR;
}
