It's a C function. Download the package source from http://cran.r-project.org/src/contrib/party_1.0-13.tar.gz and look in `src/TreeGrow.c`

:

```
/**
The tree growing recursion
*\file TreeGrow.c
*\author $Author: hothorn $
*\date $Date: 2009-06-16 09:17:31 +0200 (Tue, 16 Jun 2009) $
*/
#include "party.h"
/**
The main tree growing function, handles the recursion. \n
*\param node a list representing the current node
*\param learnsample an object of class `LearningSample'
*\param fitmem an object of class `TreeFitMemory'
*\param controls an object of class `TreeControl'
*\param where a pointer to an integer vector of n-elements
*\param nodenum a pointer to a integer vector of length 1
*\param depth an integer giving the depth of the current node
*/
void C_TreeGrow(SEXP node, SEXP learnsample, SEXP fitmem,
SEXP controls, int *where, int *nodenum, int depth) {
SEXP weights;
int nobs, i, stop;
double *dweights;
weights = S3get_nodeweights(node);
/* stop if either stumps have been requested or
the maximum depth is exceeded */
stop = (nodenum[0] == 2 || nodenum[0] == 3) &&
get_stump(get_tgctrl(controls));
stop = stop || !check_depth(get_tgctrl(controls), depth);
if (stop)
C_Node(node, learnsample, weights, fitmem, controls, 1, depth);
else
C_Node(node, learnsample, weights, fitmem, controls, 0, depth);
S3set_nodeID(node, nodenum[0]);
if (!S3get_nodeterminal(node)) {
C_splitnode(node, learnsample, controls);
/* determine surrogate splits and split missing values */
if (get_maxsurrogate(get_splitctrl(controls)) > 0) {
C_surrogates(node, learnsample, weights, controls, fitmem);
C_splitsurrogate(node, learnsample);
}
nodenum[0] += 1;
C_TreeGrow(S3get_leftnode(node), learnsample, fitmem,
controls, where, nodenum, depth + 1);
nodenum[0] += 1;
C_TreeGrow(S3get_rightnode(node), learnsample, fitmem,
controls, where, nodenum, depth + 1);
} else {
dweights = REAL(weights);
nobs = get_nobs(learnsample);
for (i = 0; i < nobs; i++)
if (dweights[i] > 0) where[i] = nodenum[0];
}
}
/**
R-interface to C_TreeGrow\n
*\param learnsample an object of class `LearningSample'
*\param weights a vector of case weights
*\param fitmem an object of class `TreeFitMemory'
*\param controls an object of class `TreeControl'
*\param where a vector of node indices for each observation
*/
SEXP R_TreeGrow(SEXP learnsample, SEXP weights, SEXP fitmem, SEXP controls, SEXP where) {
SEXP ans, nweights;
double *dnweights, *dweights;
int nobs, i, nodenum = 1;
GetRNGstate();
nobs = get_nobs(learnsample);
PROTECT(ans = allocVector(VECSXP, NODE_LENGTH));
C_init_node(ans, nobs, get_ninputs(learnsample), get_maxsurrogate(get_splitctrl(controls)),
ncol(get_predict_trafo(GET_SLOT(learnsample, PL2_responsesSym))));
nweights = S3get_nodeweights(ans);
dnweights = REAL(nweights);
dweights = REAL(weights);
for (i = 0; i < nobs; i++) dnweights[i] = dweights[i];
C_TreeGrow(ans, learnsample, fitmem, controls, INTEGER(where), &nodenum, 1);
PutRNGstate();
UNPROTECT(1);
return(ans);
}
```