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/**
* xsltICUSort.c: module provided by Richard Jinks to provide a
* sort function replacement using ICU, it is not
* included in standard due to the size of the ICU
* library
*
* See http://mail.gnome.org/archives/xslt/2002-November/msg00093.html
* http://oss.software.ibm.com/icu/index.html
*
* Copyright Richard Jinks
*/
#define IN_LIBXSLT
#include "libxslt.h"
#include <libxml/parserInternals.h>
#include "xslt.h"
#include "xsltInternals.h"
#include "xsltutils.h"
#include "transform.h"
#include "templates.h"
#include <unicode/ucnv.h>
#include <unicode/ustring.h>
#include <unicode/utypes.h>
#include <unicode/uloc.h>
#include <unicode/ucol.h>
/**
* xsltICUSortFunction:
* @ctxt: a XSLT process context
* @sorts: array of sort nodes
* @nbsorts: the number of sorts in the array
*
* reorder the current node list accordingly to the set of sorting
* requirement provided by the arry of nodes.
* uses the ICU library
*/
void
xsltICUSortFunction(xsltTransformContextPtr ctxt, xmlNodePtr *sorts,
int nbsorts) {
xmlXPathObjectPtr *resultsTab[XSLT_MAX_SORT];
xmlXPathObjectPtr *results = NULL, *res;
xmlNodeSetPtr list = NULL;
int descending, number, desc, numb;
int len = 0;
int i, j, incr;
int tst;
int depth;
xmlNodePtr node;
xmlXPathObjectPtr tmp;
xsltStylePreCompPtr comp;
int tempstype[XSLT_MAX_SORT], temporder[XSLT_MAX_SORT];
/* Start ICU change */
UCollator *coll = 0;
UConverter *conv;
UErrorCode status;
UChar *target,*target2;
int targetlen, target2len;
/* End ICU change */
if ((ctxt == NULL) || (sorts == NULL) || (nbsorts <= 0) ||
(nbsorts >= XSLT_MAX_SORT))
return;
if (sorts[0] == NULL)
return;
comp = sorts[0]->_private;
if (comp == NULL)
return;
list = ctxt->nodeList;
if ((list == NULL) || (list->nodeNr <= 1))
return; /* nothing to do */
for (j = 0; j < nbsorts; j++) {
comp = sorts[j]->_private;
tempstype[j] = 0;
if ((comp->stype == NULL) && (comp->has_stype != 0)) {
comp->stype =
xsltEvalAttrValueTemplate(ctxt, sorts[j],
(const xmlChar *) "data-type",
XSLT_NAMESPACE);
if (comp->stype != NULL) {
tempstype[j] = 1;
if (xmlStrEqual(comp->stype, (const xmlChar *) "text"))
comp->number = 0;
else if (xmlStrEqual(comp->stype, (const xmlChar *) "number"))
comp->number = 1;
else {
xsltTransformError(ctxt, NULL, sorts[j],
"xsltDoSortFunction: no support for data-type = %s\n",
comp->stype);
comp->number = 0; /* use default */
}
}
}
temporder[j] = 0;
if ((comp->order == NULL) && (comp->has_order != 0)) {
comp->order = xsltEvalAttrValueTemplate(ctxt, sorts[j],
(const xmlChar *) "order",
XSLT_NAMESPACE);
if (comp->order != NULL) {
temporder[j] = 1;
if (xmlStrEqual(comp->order, (const xmlChar *) "ascending"))
comp->descending = 0;
else if (xmlStrEqual(comp->order,
(const xmlChar *) "descending"))
comp->descending = 1;
else {
xsltTransformError(ctxt, NULL, sorts[j],
"xsltDoSortFunction: invalid value %s for order\n",
comp->order);
comp->descending = 0; /* use default */
}
}
}
}
len = list->nodeNr;
resultsTab[0] = xsltComputeSortResult(ctxt, sorts[0]);
for (i = 1;i < XSLT_MAX_SORT;i++)
resultsTab[i] = NULL;
results = resultsTab[0];
comp = sorts[0]->_private;
descending = comp->descending;
number = comp->number;
if (results == NULL)
return;
/* Start ICU change */
status = U_ZERO_ERROR;
conv = ucnv_open("UTF8", &status);
if(U_FAILURE(status)) {
xsltTransformError(ctxt, NULL, NULL, "xsltICUSortFunction: Error opening converter\n");
}
if(comp->has_lang)
coll = ucol_open(comp->lang, &status);
if(U_FAILURE(status) || !comp->has_lang) {
status = U_ZERO_ERROR;
coll = ucol_open("en", &status);
}
if(U_FAILURE(status)) {
xsltTransformError(ctxt, NULL, NULL, "xsltICUSortFunction: Error opening collator\n");
}
if(comp->lower_first)
ucol_setAttribute(coll,UCOL_CASE_FIRST,UCOL_LOWER_FIRST,&status);
else
ucol_setAttribute(coll,UCOL_CASE_FIRST,UCOL_UPPER_FIRST,&status);
if(U_FAILURE(status)) {
xsltTransformError(ctxt, NULL, NULL, "xsltICUSortFunction: Error setting collator attribute\n");
}
/* End ICU change */
/* Shell's sort of node-set */
for (incr = len / 2; incr > 0; incr /= 2) {
for (i = incr; i < len; i++) {
j = i - incr;
if (results[i] == NULL)
continue;
while (j >= 0) {
if (results[j] == NULL)
tst = 1;
else {
if (number) {
if (results[j]->floatval == results[j + incr]->floatval)
tst = 0;
else if (results[j]->floatval >
results[j + incr]->floatval)
tst = 1;
else tst = -1;
} else {
/* tst = xmlStrcmp(results[j]->stringval,
results[j + incr]->stringval); */
/* Start ICU change */
targetlen = xmlStrlen(results[j]->stringval) * 2;
target2len = xmlStrlen(results[j + incr]->stringval) * 2;
target = xmlMalloc(targetlen * sizeof(UChar));
target2 = xmlMalloc(target2len * sizeof(UChar));
targetlen = ucnv_toUChars(conv, target, targetlen, results[j]->stringval, -1, &status);
target2len = ucnv_toUChars(conv, target2, target2len, results[j+incr]->stringval, -1, &status);
tst = ucol_strcoll(coll, target, u_strlen(target), target2, u_strlen(target2));
/* End ICU change */
}
if (descending)
tst = -tst;
}
if (tst == 0) {
/*
* Okay we need to use multi level sorts
*/
depth = 1;
while (depth < nbsorts) {
if (sorts[depth] == NULL)
break;
comp = sorts[depth]->_private;
if (comp == NULL)
break;
desc = comp->descending;
numb = comp->number;
/*
* Compute the result of the next level for the
* full set, this might be optimized ... or not
*/
if (resultsTab[depth] == NULL)
resultsTab[depth] = xsltComputeSortResult(ctxt,
sorts[depth]);
res = resultsTab[depth];
if (res == NULL)
break;
if (res[j] == NULL)
tst = 1;
else {
if (numb) {
if (res[j]->floatval == res[j + incr]->floatval)
tst = 0;
else if (res[j]->floatval >
res[j + incr]->floatval)
tst = 1;
else tst = -1;
} else {
/* tst = xmlStrcmp(res[j]->stringval,
res[j + incr]->stringval); */
/* Start ICU change */
targetlen = xmlStrlen(res[j]->stringval) * 2;
target2len = xmlStrlen(res[j + incr]->stringval) * 2;
target = xmlMalloc(targetlen * sizeof(UChar));
target2 = xmlMalloc(target2len * sizeof(UChar));
targetlen = ucnv_toUChars(conv, target, targetlen, res[j]->stringval, -1, &status);
target2len = ucnv_toUChars(conv, target2, target2len, res[j+incr]->stringval, -1, &status);
tst = ucol_strcoll(coll, target, u_strlen(target), target2, u_strlen(target2));
/* End ICU change */
}
if (desc)
tst = -tst;
}
/*
* if we still can't differenciate at this level
* try one level deeper.
*/
if (tst != 0)
break;
depth++;
}
}
if (tst == 0) {
tst = results[j]->index > results[j + incr]->index;
}
if (tst > 0) {
tmp = results[j];
results[j] = results[j + incr];
results[j + incr] = tmp;
node = list->nodeTab[j];
list->nodeTab[j] = list->nodeTab[j + incr];
list->nodeTab[j + incr] = node;
depth = 1;
while (depth < nbsorts) {
if (sorts[depth] == NULL)
break;
if (resultsTab[depth] == NULL)
break;
res = resultsTab[depth];
tmp = res[j];
res[j] = res[j + incr];
res[j + incr] = tmp;
depth++;
}
j -= incr;
} else
break;
}
}
}
/* Start ICU change */
ucol_close(coll);
ucnv_close(conv);
/* End ICU change */
for (j = 0; j < nbsorts; j++) {
comp = sorts[j]->_private;
if (tempstype[j] == 1) {
/* The data-type needs to be recomputed each time */
xmlFree(comp->stype);
comp->stype = NULL;
}
if (temporder[j] == 1) {
/* The order needs to be recomputed each time */
xmlFree(comp->order);
comp->order = NULL;
}
if (resultsTab[j] != NULL) {
for (i = 0;i < len;i++)
xmlXPathFreeObject(resultsTab[j][i]);
xmlFree(resultsTab[j]);
}
}
}
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