scuffed-code/icu4c/source/test/perf/collperf/collperf.cpp

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/********************************************************************
* COPYRIGHT:
* Copyright (C) 2001-2006 IBM, Inc. All Rights Reserved.
*
********************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <locale.h>
#include <limits.h>
#include <string.h>
#include "unicode/uperf.h"
#include "uoptions.h"
#include "unicode/coll.h"
#include <unicode/ucoleitr.h>
/* To store an array of string<UNIT> in continue space.
Since string<UNIT> itself is treated as an array of UNIT, this
class will ease our memory management for an array of string<UNIT>.
*/
//template<typename UNIT>
#define COMPATCT_ARRAY(CompactArrays, UNIT) \
struct CompactArrays{\
CompactArrays(const CompactArrays & );\
CompactArrays & operator=(const CompactArrays & );\
int32_t count;/*total number of the strings*/ \
int32_t * index;/*relative offset in data*/ \
UNIT * data; /*the real space to hold strings*/ \
\
~CompactArrays(){free(index);free(data);} \
CompactArrays():data(NULL), index(NULL), count(0){ \
index = (int32_t *) realloc(index, sizeof(int32_t)); \
index[0] = 0; \
} \
void append_one(int32_t theLen){ /*include terminal NULL*/ \
count++; \
index = (int32_t *) realloc(index, sizeof(int32_t) * (count + 1)); \
index[count] = index[count - 1] + theLen; \
data = (UNIT *) realloc(data, sizeof(UNIT) * index[count]); \
} \
UNIT * last(){return data + index[count - 1];} \
UNIT * dataOf(int32_t i){return data + index[i];} \
int32_t lengthOf(int i){return index[i+1] - index[i] - 1; } /*exclude terminating NULL*/ \
};
//typedef CompactArrays<UChar> CA_uchar;
//typedef CompactArrays<char> CA_char;
//typedef CompactArrays<uint8_t> CA_uint8;
//typedef CompactArrays<WCHAR> CA_win_wchar;
COMPATCT_ARRAY(CA_uchar, UChar)
COMPATCT_ARRAY(CA_char, char)
COMPATCT_ARRAY(CA_uint8, uint8_t)
COMPATCT_ARRAY(CA_win_wchar, WCHAR)
struct DataIndex {
static DWORD win_langid; // for qsort callback function
static UCollator * col; // for qsort callback function
uint8_t * icu_key;
UChar * icu_data;
int32_t icu_data_len;
char* posix_key;
char* posix_data;
int32_t posix_data_len;
char* win_key;
WCHAR * win_data;
int32_t win_data_len;
};
DWORD DataIndex::win_langid;
UCollator * DataIndex::col;
class CmdKeyGen : public UPerfFunction {
typedef void (CmdKeyGen::* Func)(int32_t);
enum{MAX_KEY_LENGTH = 5000};
UCollator * col;
DWORD win_langid;
int32_t count;
DataIndex * data;
Func fn;
union { // to save sapce
uint8_t icu_key[MAX_KEY_LENGTH];
char posix_key[MAX_KEY_LENGTH];
WCHAR win_key[MAX_KEY_LENGTH];
};
public:
CmdKeyGen(UErrorCode, UCollator * col,DWORD win_langid, int32_t count, DataIndex * data,Func fn,int32_t)
:col(col),win_langid(win_langid), count(count), data(data), fn(fn){}
virtual long getOperationsPerIteration(){return count;}
virtual void call(UErrorCode* status){
for(int32_t i = 0; i< count; i++){
(this->*fn)(i);
}
}
void icu_key_null(int32_t i){
ucol_getSortKey(col, data[i].icu_data, -1, icu_key, MAX_KEY_LENGTH);
}
void icu_key_len(int32_t i){
ucol_getSortKey(col, data[i].icu_data, data[i].icu_data_len, icu_key, MAX_KEY_LENGTH);
}
// pre-generated in CollPerfTest::prepareData(), need not to check error here
void win_key_null(int32_t i){
//LCMAP_SORTsk 0x00000400 // WC sort sk (normalize)
LCMapStringW(win_langid, LCMAP_SORTKEY, data[i].win_data, -1, win_key, MAX_KEY_LENGTH);
}
void win_key_len(int32_t i){
LCMapStringW(win_langid, LCMAP_SORTKEY, data[i].win_data, data[i].win_data_len, win_key, MAX_KEY_LENGTH);
}
void posix_key_null(int32_t i){
strxfrm(posix_key, data[i].posix_data, MAX_KEY_LENGTH);
}
};
class CmdIter : public UPerfFunction {
typedef void (CmdIter::* Func)(UErrorCode* , int32_t );
int32_t count;
CA_uchar * data;
Func fn;
UCollationElements *iter;
int32_t exec_count;
public:
CmdIter(UErrorCode & status, UCollator * col, int32_t count, CA_uchar *data, Func fn, int32_t,int32_t)
:count(count), data(data), fn(fn){
exec_count = 0;
UChar dummytext[] = {0, 0};
iter = ucol_openElements(col, NULL, 0, &status);
ucol_setText(iter, dummytext, 1, &status);
}
~CmdIter(){
ucol_closeElements(iter);
}
virtual long getOperationsPerIteration(){return exec_count ? exec_count : 1;}
virtual void call(UErrorCode* status){
exec_count = 0;
for(int32_t i = 0; i< count; i++){
(this->*fn)(status, i);
}
}
void icu_forward_null(UErrorCode* status, int32_t i){
ucol_setText(iter, data->dataOf(i), -1, status);
while (ucol_next(iter, status) != UCOL_NULLORDER) exec_count++;
}
void icu_forward_len(UErrorCode* status, int32_t i){
ucol_setText(iter, data->dataOf(i), data->lengthOf(i) , status);
while (ucol_next(iter, status) != UCOL_NULLORDER) exec_count++;
}
void icu_backward_null(UErrorCode* status, int32_t i){
ucol_setText(iter, data->dataOf(i), -1, status);
while (ucol_previous(iter, status) != UCOL_NULLORDER) exec_count++;
}
void icu_backward_len(UErrorCode* status, int32_t i){
ucol_setText(iter, data->dataOf(i), data->lengthOf(i) , status);
while (ucol_previous(iter, status) != UCOL_NULLORDER) exec_count++;
}
};
class CmdIterAll : public UPerfFunction {
typedef void (CmdIterAll::* Func)(UErrorCode* status);
int32_t count;
UChar * data;
Func fn;
UCollationElements *iter;
int32_t exec_count;
public:
enum CALL {forward_null, forward_len, backward_null, backward_len};
~CmdIterAll(){
ucol_closeElements(iter);
}
CmdIterAll(UErrorCode & status, UCollator * col, int32_t count, UChar * data, CALL call,int32_t,int32_t)
:count(count),data(data)
{
exec_count = 0;
if (call == forward_null || call == backward_null) {
iter = ucol_openElements(col, data, -1, &status);
} else {
iter = ucol_openElements(col, data, count, &status);
}
if (call == forward_null || call == forward_len){
fn = &CmdIterAll::icu_forward_all;
} else {
fn = &CmdIterAll::icu_backward_all;
}
}
virtual long getOperationsPerIteration(){return exec_count ? exec_count : 1;}
virtual void call(UErrorCode* status){
(this->*fn)(status);
}
void icu_forward_all(UErrorCode* status){
int strlen = count - 5;
int count5 = 5;
int strindex = 0;
ucol_setOffset(iter, strindex, status);
while (TRUE) {
if (ucol_next(iter, status) == UCOL_NULLORDER) {
break;
}
exec_count++;
count5 --;
if (count5 == 0) {
strindex += 10;
if (strindex > strlen) {
break;
}
ucol_setOffset(iter, strindex, status);
count5 = 5;
}
}
}
void icu_backward_all(UErrorCode* status){
int strlen = count;
int count5 = 5;
int strindex = 5;
ucol_setOffset(iter, strindex, status);
while (TRUE) {
if (ucol_previous(iter, status) == UCOL_NULLORDER) {
break;
}
exec_count++;
count5 --;
if (count5 == 0) {
strindex += 10;
if (strindex > strlen) {
break;
}
ucol_setOffset(iter, strindex, status);
count5 = 5;
}
}
}
};
struct CmdQsort : public UPerfFunction{
static int q_random(const void * a, const void * b){
uint8_t * key_a = ((DataIndex *)a)->icu_key;
uint8_t * key_b = ((DataIndex *)b)->icu_key;
int val_a = 0;
int val_b = 0;
while (*key_a != 0) {val_a += val_a*37 + *key_a++;}
while (*key_b != 0) {val_b += val_b*37 + *key_b++;}
return val_a - val_b;
}
#define QCAST() \
DataIndex * da = (DataIndex *) a; \
DataIndex * db = (DataIndex *) b; \
++exec_count
static int icu_strcoll_null(const void *a, const void *b){
QCAST();
return ucol_strcoll(da->col, da->icu_data, -1, db->icu_data, -1) - UCOL_EQUAL;
}
static int icu_strcoll_len(const void *a, const void *b){
QCAST();
return ucol_strcoll(da->col, da->icu_data, da->icu_data_len, db->icu_data, db->icu_data_len) - UCOL_EQUAL;
}
static int icu_cmpkey (const void *a, const void *b){
QCAST();
return strcmp((char *) da->icu_key, (char *) db->icu_key);
}
static int win_cmp_null(const void *a, const void *b) {
QCAST();
//CSTR_LESS_THAN 1
//CSTR_EQUAL 2
//CSTR_GREATER_THAN 3
int t = CompareStringW(da->win_langid, 0, da->win_data, -1, db->win_data, -1);
if (t == 0){
fprintf(stderr, "CompareStringW error, error number %x\n", GetLastError());
exit(-1);
} else{
return t - CSTR_EQUAL;
}
}
static int win_cmp_len(const void *a, const void *b) {
QCAST();
int t = CompareStringW(da->win_langid, 0, da->win_data, da->win_data_len, db->win_data, db->win_data_len);
if (t == 0){
fprintf(stderr, "CompareStringW error, error number %x\n", GetLastError());
exit(-1);
} else{
return t - CSTR_EQUAL;
}
}
#define QFUNC(name, func, data) \
static int name (const void *a, const void *b){ \
QCAST(); \
return func(da->data, db->data); \
}
QFUNC(posix_strcoll_null, strcoll, posix_data)
QFUNC(posix_cmpkey, strcmp, posix_key)
QFUNC(win_cmpkey, strcmp, win_key)
QFUNC(win_wcscmp, wcscmp, win_data)
QFUNC(icu_strcmp, u_strcmp, icu_data)
QFUNC(icu_cmpcpo, u_strcmpCodePointOrder, icu_data)
private:
static int32_t exec_count; // potential muilt-thread problem
typedef int (* Func)(const void *, const void *);
Func fn;
void * base; //Start of target array.
int32_t num; //Array size in elements.
int32_t width; //Element size in bytes.
void * backup; //copy source of base
public:
CmdQsort(UErrorCode & status,void *theBase, int32_t num, int32_t width, Func fn, int32_t,int32_t)
:backup(theBase),num(num),width(width),fn(fn){
base = malloc(num * width);
time_empty(100, &status); // warm memory/cache
}
~CmdQsort(){
free(base);
}
void empty_call(){
exec_count = 0;
memcpy(base, backup, num * width);
}
double time_empty(int32_t n, UErrorCode* status) {
UTimer start, stop;
utimer_getTime(&start);
while (n-- > 0) {
empty_call();
}
utimer_getTime(&stop);
return utimer_getDeltaSeconds(&start,&stop); // ms
}
virtual void call(UErrorCode* status){
exec_count = 0;
memcpy(base, backup, num * width);
qsort(base, num, width, fn);
}
virtual double time(int32_t n, UErrorCode* status) {
double t1 = time_empty(n,status);
double t2 = UPerfFunction::time(n, status);
return t2-t1;// < 0 ? t2 : t2-t1;
}
virtual long getOperationsPerIteration(){ return exec_count?exec_count:1;}
};
int32_t CmdQsort::exec_count;
class CmdBinSearch : public UPerfFunction{
public:
typedef int (CmdBinSearch::* Func)(int, int);
UCollator * col;
DWORD win_langid;
int32_t count;
DataIndex * rnd;
DataIndex * ord;
Func fn;
int32_t exec_count;
CmdBinSearch(UErrorCode, UCollator * col,DWORD win_langid,int32_t count,DataIndex * rnd,DataIndex * ord,Func fn)
:col(col),win_langid(win_langid), count(count), rnd(rnd), ord(ord), fn(fn),exec_count(0){}
virtual void call(UErrorCode* status){
exec_count = 0;
for(int32_t i = 0; i< count; i++){ // search all data
binary_search(i);
}
}
virtual long getOperationsPerIteration(){ return exec_count?exec_count:1;}
void binary_search(int32_t random) {
int low = 0;
int high = count - 1;
int guess;
int last_guess = -1;
int r;
while (TRUE) {
guess = (high + low)/2;
if (last_guess == guess) break; // nothing to search
r = (this->*fn)(random, guess);
exec_count++;
if (r == 0)
return; // found, search end.
if (r < 0) {
high = guess;
} else {
low = guess;
}
last_guess = guess;
}
}
int icu_strcoll_null(int32_t i, int32_t j){
return ucol_strcoll(col, rnd[i].icu_data, -1, ord[j].icu_data,-1);
}
int icu_strcoll_len(int32_t i, int32_t j){
return ucol_strcoll(col, rnd[i].icu_data, rnd[i].icu_data_len, ord[j].icu_data, ord[j].icu_data_len);
}
int icu_cmpkey(int32_t i, int32_t j) {
return strcmp( (char *) rnd[i].icu_key, (char *) ord[j].icu_key );
}
int win_cmp_null(int32_t i, int32_t j) {
int t = CompareStringW(win_langid, 0, rnd[i].win_data, -1, ord[j].win_data, -1);
if (t == 0){
fprintf(stderr, "CompareStringW error, error number %x\n", GetLastError());
exit(-1);
} else{
return t - CSTR_EQUAL;
}
}
int win_cmp_len(int32_t i, int32_t j) {
int t = CompareStringW(win_langid, 0, rnd[i].win_data, rnd[i].win_data_len, ord[j].win_data, ord[j].win_data_len);
if (t == 0){
fprintf(stderr, "CompareStringW error, error number %x\n", GetLastError());
exit(-1);
} else{
return t - CSTR_EQUAL;
}
}
#define BFUNC(name, func, data) \
int name(int32_t i, int32_t j) { \
return func(rnd[i].data, ord[j].data); \
}
BFUNC(posix_strcoll_null, strcoll, posix_data)
BFUNC(posix_cmpkey, strcmp, posix_key)
BFUNC(win_cmpkey, strcmp, win_key)
BFUNC(win_wcscmp, wcscmp, win_data)
BFUNC(icu_strcmp, u_strcmp, icu_data)
BFUNC(icu_cmpcpo, u_strcmpCodePointOrder, icu_data)
};
class CollPerfTest : public UPerfTest {
public:
UCollator * col;
DWORD win_langid;
UChar * icu_data_all;
int32_t icu_data_all_len;
int32_t count;
CA_uchar * icu_data;
CA_uint8 * icu_key;
CA_char * posix_data;
CA_char * posix_key;
CA_win_wchar * win_data;
CA_char * win_key;
DataIndex * rnd_index; // random by icu key
DataIndex * ord_win_data;
DataIndex * ord_win_key;
DataIndex * ord_posix_data;
DataIndex * ord_posix_key;
DataIndex * ord_icu_data;
DataIndex * ord_icu_key;
DataIndex * ord_win_wcscmp;
DataIndex * ord_icu_strcmp;
DataIndex * ord_icu_cmpcpo;
virtual ~CollPerfTest(){
ucol_close(col);
delete [] icu_data_all;
delete icu_data;
delete icu_key;
delete posix_data;
delete posix_key;
delete win_data;
delete win_key;
delete[] rnd_index;
delete[] ord_win_data;
delete[] ord_win_key;
delete[] ord_posix_data;
delete[] ord_posix_key;
delete[] ord_icu_data;
delete[] ord_icu_key;
delete[] ord_win_wcscmp;
delete[] ord_icu_strcmp;
delete[] ord_icu_cmpcpo;
}
CollPerfTest(int32_t argc, const char* argv[], UErrorCode& status):UPerfTest(argc, argv, status){
col = NULL;
icu_data_all = NULL;
icu_data = NULL;
icu_key = NULL;
posix_data = NULL;
posix_key = NULL;
win_data =NULL;
win_key = NULL;
rnd_index = NULL;
ord_win_data= NULL;
ord_win_key= NULL;
ord_posix_data= NULL;
ord_posix_key= NULL;
ord_icu_data= NULL;
ord_icu_key= NULL;
ord_win_wcscmp = NULL;
ord_icu_strcmp = NULL;
ord_icu_cmpcpo = NULL;
if (U_FAILURE(status)){
return;
}
// Parse additional arguments
UOption options[] = {
UOPTION_DEF("langid", 'i', UOPT_REQUIRES_ARG), // Windows Language ID number.
UOPTION_DEF("rulefile", 'r', UOPT_REQUIRES_ARG), // --rulefile <filename>
// Collation related arguments. All are optional.
// To simplify parsing, two choice arguments are disigned as NO_ARG.
// The default value is UPPER word in the comment
UOPTION_DEF("c_french", 'f', UOPT_NO_ARG), // --french <on | OFF>
UOPTION_DEF("c_alternate", 'a', UOPT_NO_ARG), // --alternate <NON_IGNORE | shifted>
UOPTION_DEF("c_casefirst", 'c', UOPT_REQUIRES_ARG), // --casefirst <lower | upper | OFF>
UOPTION_DEF("c_caselevel", 'l', UOPT_NO_ARG), // --caselevel <on | OFF>
UOPTION_DEF("c_normal", 'n', UOPT_NO_ARG), // --normal <on | OFF>
UOPTION_DEF("c_strength", 's', UOPT_REQUIRES_ARG), // --strength <1-5>
};
int32_t opt_len = (sizeof(options)/sizeof(options[0]));
enum {i, r,f,a,c,l,n,s}; // The buffer between the option items' order and their references
_remainingArgc = u_parseArgs(_remainingArgc, (char**)argv, opt_len, options);
if (_remainingArgc < 0){
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
if (locale == NULL){
locale = "en_US"; // set default locale
}
//#ifdef U_WINDOWS
if (options[i].doesOccur) {
char *endp;
int tmp = strtol(options[i].value, &endp, 0);
if (endp == options[i].value) {
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
win_langid = MAKELCID(tmp, SORT_DEFAULT);
} else {
win_langid = uloc_getLCID(locale);
}
//#endif
// Set up an ICU collator
if (options[r].doesOccur) {
// TODO: implement it
} else {
col = ucol_open(locale, &status);
if (U_FAILURE(status)) {
return;
}
}
if (options[f].doesOccur) {
ucol_setAttribute(col, UCOL_FRENCH_COLLATION, UCOL_ON, &status);
} else {
ucol_setAttribute(col, UCOL_FRENCH_COLLATION, UCOL_OFF, &status);
}
if (options[a].doesOccur) {
ucol_setAttribute(col, UCOL_ALTERNATE_HANDLING, UCOL_SHIFTED, &status);
}
if (options[c].doesOccur) { // strcmp() has i18n encoding problem
if (strcmp("lower", options[c].value) == 0){
ucol_setAttribute(col, UCOL_CASE_FIRST, UCOL_LOWER_FIRST, &status);
} else if (strcmp("upper", options[c].value) == 0) {
ucol_setAttribute(col, UCOL_CASE_FIRST, UCOL_UPPER_FIRST, &status);
} else {
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
}
if (options[l].doesOccur){
ucol_setAttribute(col, UCOL_CASE_LEVEL, UCOL_ON, &status);
}
if (options[n].doesOccur){
ucol_setAttribute(col, UCOL_NORMALIZATION_MODE, UCOL_ON, &status);
}
if (options[s].doesOccur) {
char *endp;
int tmp = strtol(options[l].value, &endp, 0);
if (endp == options[l].value) {
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
switch (tmp) {
case 1: ucol_setAttribute(col, UCOL_STRENGTH, UCOL_PRIMARY, &status); break;
case 2: ucol_setAttribute(col, UCOL_STRENGTH, UCOL_SECONDARY, &status); break;
case 3: ucol_setAttribute(col, UCOL_STRENGTH, UCOL_TERTIARY, &status); break;
case 4: ucol_setAttribute(col, UCOL_STRENGTH, UCOL_QUATERNARY, &status); break;
case 5: ucol_setAttribute(col, UCOL_STRENGTH, UCOL_IDENTICAL, &status); break;
default: status = U_ILLEGAL_ARGUMENT_ERROR; return;
}
}
prepareData(status);
}
//to avoid use the annoying 'id' in TESTCASE(id,test) macro or the like
#define TEST(testname, classname, arg1, arg2, arg3, arg4, arg5, arg6) \
if(temp == index) {\
name = #testname;\
if (exec) {\
UErrorCode status = U_ZERO_ERROR;\
UPerfFunction * t = new classname(status,arg1, arg2, arg3, arg4, arg5, arg6);\
if (U_FAILURE(status)) {\
delete t;\
return NULL;\
} else {\
return t;\
}\
} else {\
return NULL;\
}\
}\
temp++\
virtual UPerfFunction* runIndexedTest( /*[in]*/int32_t index, /*[in]*/UBool exec, /*[out]*/const char* &name, /*[in]*/ char* par = NULL ){
int temp = 0;
#define TEST_KEYGEN(testname, func)\
TEST(testname, CmdKeyGen, col, win_langid, count, rnd_index, &CmdKeyGen::func, 0)
TEST_KEYGEN(TestIcu_KeyGen_null, icu_key_null);
TEST_KEYGEN(TestIcu_KeyGen_len, icu_key_len);
TEST_KEYGEN(TestPosix_KeyGen_null, posix_key_null);
TEST_KEYGEN(TestWin_KeyGen_null, win_key_null);
TEST_KEYGEN(TestWin_KeyGen_len, win_key_len);
#define TEST_ITER(testname, func)\
TEST(testname, CmdIter, col, count, icu_data, &CmdIter::func,0,0)
TEST_ITER(TestIcu_ForwardIter_null, icu_forward_null);
TEST_ITER(TestIcu_ForwardIter_len, icu_forward_len);
TEST_ITER(TestIcu_BackwardIter_null, icu_backward_null);
TEST_ITER(TestIcu_BackwardIter_len, icu_backward_len);
#define TEST_ITER_ALL(testname, func)\
TEST(testname, CmdIterAll, col, icu_data_all_len, icu_data_all, CmdIterAll::func,0,0)
TEST_ITER_ALL(TestIcu_ForwardIter_all_null, forward_null);
TEST_ITER_ALL(TestIcu_ForwardIter_all_len, forward_len);
TEST_ITER_ALL(TestIcu_BackwardIter_all_null, backward_null);
TEST_ITER_ALL(TestIcu_BackwardIter_all_len, backward_len);
#define TEST_QSORT(testname, func)\
TEST(testname, CmdQsort, rnd_index, count, sizeof(DataIndex), CmdQsort::func,0,0)
TEST_QSORT(TestIcu_qsort_strcoll_null, icu_strcoll_null);
TEST_QSORT(TestIcu_qsort_strcoll_len, icu_strcoll_len);
TEST_QSORT(TestIcu_qsort_usekey, icu_cmpkey);
TEST_QSORT(TestPosix_qsort_strcoll_null, posix_strcoll_null);
TEST_QSORT(TestPosix_qsort_usekey, posix_cmpkey);
TEST_QSORT(TestWin_qsort_CompareStringW_null, win_cmp_null);
TEST_QSORT(TestWin_qsort_CompareStringW_len, win_cmp_len);
TEST_QSORT(TestWin_qsort_usekey, win_cmpkey);
#define TEST_BIN(testname, func)\
TEST(testname, CmdBinSearch, col, win_langid, count, rnd_index, ord_icu_key, &CmdBinSearch::func)
TEST_BIN(TestIcu_BinarySearch_strcoll_null, icu_strcoll_null);
TEST_BIN(TestIcu_BinarySearch_strcoll_len, icu_strcoll_len);
TEST_BIN(TestIcu_BinarySearch_usekey, icu_cmpkey);
TEST_BIN(TestIcu_BinarySearch_strcmp, icu_strcmp);
TEST_BIN(TestIcu_BinarySearch_cmpCPO, icu_cmpcpo);
TEST_BIN(TestPosix_BinarySearch_strcoll_null, posix_strcoll_null);
TEST_BIN(TestPosix_BinarySearch_usekey, posix_cmpkey);
TEST_BIN(TestWin_BinarySearch_CompareStringW_null, win_cmp_null);
TEST_BIN(TestWin_BinarySearch_CompareStringW_len, win_cmp_len);
TEST_BIN(TestWin_BinarySearch_usekey, win_cmpkey);
TEST_BIN(TestWin_BinarySearch_wcscmp, win_wcscmp);
name="";
return NULL;
}
void prepareData(UErrorCode& status){
if(U_FAILURE(status)) return;
if (icu_data) return; // prepared
icu_data = new CA_uchar();
// Following code is borrowed from UPerfTest::getLines();
const UChar* line=NULL;
int32_t len =0;
for (;;) {
line = ucbuf_readline(ucharBuf,&len,&status);
if(line == NULL || U_FAILURE(status)){break;}
// Refer to the source code of ucbuf_readline()
// 1. 'len' includs the line terminal symbols
// 2. The length of the line terminal symbols is only one character
// 3. The Windows CR LF line terminal symbols will be converted to CR
if (len == 1) {
continue; //skip empty line
} else {
icu_data->append_one(len);
memcpy(icu_data->last(), line, len * sizeof(UChar));
icu_data->last()[len -1] = NULL;
}
}
if(U_FAILURE(status)) return;
// UTF-16 -> UTF-8 conversion.
UConverter *conv = ucnv_open("utf-8", &status); // just UTF-8 for now.
if (U_FAILURE(status)) return;
count = icu_data->count;
icu_data_all_len = icu_data->index[count]; // includes all NULLs
icu_data_all_len -= count; // excludes all NULLs
icu_data_all_len += 1; // the terminal NULL
icu_data_all = new UChar[icu_data_all_len];
icu_data_all[icu_data_all_len - 1] = 0; //the terminal NULL
icu_key = new CA_uint8;
win_data = new CA_win_wchar;
win_key = new CA_char;
posix_data = new CA_char;
posix_key = new CA_char;
rnd_index = new DataIndex[count];
DataIndex::win_langid = win_langid;
DataIndex::col = col;
UChar * p = icu_data_all;
int32_t s;
int32_t t;
for (int i=0; i < count; i++) {
// ICU all data
s = sizeof(UChar) * icu_data->lengthOf(i);
memcpy(p, icu_data->dataOf(i), s);
p += icu_data->lengthOf(i);
// ICU data
// ICU key
s = ucol_getSortKey(col, icu_data->dataOf(i), -1,NULL, 0);
icu_key->append_one(s);
t = ucol_getSortKey(col, icu_data->dataOf(i), -1,icu_key->last(), s);
if (t != s) {status = U_INVALID_FORMAT_ERROR;return;}
// POSIX data
s = ucnv_fromUChars(conv,NULL, 0, icu_data->dataOf(i), icu_data->lengthOf(i), &status);
if (status == U_BUFFER_OVERFLOW_ERROR || status == U_ZERO_ERROR){
status = U_ZERO_ERROR;
} else {
return;
}
posix_data->append_one(s + 1); // plus terminal NULL
t = ucnv_fromUChars(conv,posix_data->last(), s, icu_data->dataOf(i), icu_data->lengthOf(i), &status);
if (U_FAILURE(status)) return;
if ( t != s){status = U_INVALID_FORMAT_ERROR;return;}
posix_data->last()[s] = 0;
// POSIX key
s = strxfrm(NULL, posix_data->dataOf(i), 0);
if (s == INT_MAX){status = U_INVALID_FORMAT_ERROR;return;}
posix_key->append_one(s);
t = strxfrm(posix_key->last(), posix_data->dataOf(i), s);
if (t != s) {status = U_INVALID_FORMAT_ERROR;return;}
// Win data
s = icu_data->lengthOf(i) + 1; // plus terminal NULL
win_data->append_one(s);
memcpy(win_data->last(), icu_data->dataOf(i), sizeof(WCHAR) * s);
// Win key
s = LCMapStringW(win_langid, LCMAP_SORTKEY, win_data->dataOf(i), win_data->lengthOf(i), NULL,0);
if (s == 0) {status = U_INVALID_FORMAT_ERROR;return;}
win_key->append_one(s);
t = LCMapStringW(win_langid, LCMAP_SORTKEY, win_data->dataOf(i), win_data->lengthOf(i), (WCHAR *)(win_key->last()),s);
if (t != s) {status = U_INVALID_FORMAT_ERROR;return;}
};
// append_one() will make points shifting, should not merge following code into previous iteration
for (int i=0; i < count; i++) {
rnd_index[i].icu_key = icu_key->dataOf(i);
rnd_index[i].icu_data = icu_data->dataOf(i);
rnd_index[i].icu_data_len = icu_data->lengthOf(i);
rnd_index[i].posix_key = posix_key->last();
rnd_index[i].posix_data = posix_data->dataOf(i);
rnd_index[i].posix_data_len = posix_data->lengthOf(i);
rnd_index[i].win_key = win_key->dataOf(i);
rnd_index[i].win_data = win_data->dataOf(i);
rnd_index[i].win_data_len = win_data->lengthOf(i);
};
ucnv_close(conv);
qsort(rnd_index, count, sizeof(DataIndex), CmdQsort::q_random);
#define SORT(data, func) \
data = new DataIndex[count];\
memcpy(data, rnd_index, count * sizeof(DataIndex));\
qsort(data, count, sizeof(DataIndex), CmdQsort::func)
SORT(ord_icu_data, icu_strcoll_len);
SORT(ord_icu_key, icu_cmpkey);
SORT(ord_posix_data, posix_strcoll_null);
SORT(ord_posix_key, posix_cmpkey);
SORT(ord_win_data, win_cmp_len);
SORT(ord_win_key, win_cmpkey);
SORT(ord_win_wcscmp, win_wcscmp);
SORT(ord_icu_strcmp, icu_strcmp);
SORT(ord_icu_cmpcpo, icu_cmpcpo);
}
};
int main(int argc, const char *argv[])
{
UErrorCode status = U_ZERO_ERROR;
CollPerfTest test(argc, argv, status);
if (U_FAILURE(status)){
printf("The error is %s\n", u_errorName(status));
//TODO: print usage here
return status;
}
if (test.run() == FALSE){
fprintf(stderr, "FAILED: Tests could not be run please check the "
"arguments.\n");
return -1;
}
return 0;
}