scuffed-code/icu4c/source/test/cintltst/ucmptst.c
2002-04-05 23:56:18 +00:00

205 lines
6.1 KiB
C

/********************************************************************
* COPYRIGHT:
* Copyright (c) 1998-2001, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************/
/*
* File test.c
*
* Modification History:
*
* Date Name Description
* 07/28/2000 Madhu Creation
*******************************************************************************
*/
#include "unicode/utypes.h"
#include "ucmp8.h"
#include "umemstrm.h"
#include "cmemory.h"
#include "cintltst.h"
#include "ucol_imp.h"
static void TestUCMP8API(void);
void addCompactArrayTest(TestNode** root);
void
addCompactArrayTest(TestNode** root)
{
addTest(root, &TestUCMP8API, "ucmptst/TestUCMP8API");
}
static void query(CompactByteArray *array) {
int32_t i = 0;
const uint8_t *valuesSet=(uint8_t *)ucmp8_getArray(array);
for(i =0 ; i< 10; i++ ){
if(valuesSet[0] != (uint8_t)0xFD ){
log_err("ERROR: did not get the values expected values\n");
break;
}
}
}
static void TestUCMP8API(){
UErrorCode status = U_ZERO_ERROR;
CompactByteArray* ucmp8Array=NULL;
CompactByteArray* pAliaser=NULL;
CompactByteArray* pAdopter=NULL;
CompactByteArray aliaser;
CompactByteArray adopter;
CompactByteArray ucmp8Array1;
CompactByteArray ucmp8Array2;
CompactByteArray ucmp8Clone;
int8_t *values;
uint8_t *valuesSet;
static const int8_t TEST_DEFAULT_VALUE = (int8_t)0xFF;
/*ucmp8_open*/
log_verbose("Testing ucmp8_open()\n");
ucmp8Array=ucmp8_open(TEST_DEFAULT_VALUE);
if(ucmp8Array == NULL){
log_err("ERROR: ucmp8_open() failed\n");
}
if( (int32_t)ucmp8_getCount(ucmp8Array) != (int32_t)ucmp8_getkUnicodeCount()) {
log_err("ERROR: ucmp8_open failed\n");
}
/*ucmp8_init*/
log_verbose("Testing ucmp8_init()\n");
ucmp8_init(&ucmp8Array1, TEST_DEFAULT_VALUE);
if( (int32_t)ucmp8_getCount(&ucmp8Array1) != (int32_t)ucmp8_getkUnicodeCount() ||
ucmp8_getIndex(&ucmp8Array1) == NULL ||
ucmp8_getArray(&ucmp8Array1) == NULL ||
ucmp8Array1.fBogus != FALSE){
log_err("Error: ucmp8_init() failed\n");
}
/*ucmp8_initBogus*/
log_verbose("Testing ucmp8_initBogus()\n");
ucmp8_initBogus(&ucmp8Array2);
if((int32_t)ucmp8_getCount(&ucmp8Array2) != ucmp8Array2.fCount ||
ucmp8_getIndex(&ucmp8Array2) != NULL ||
ucmp8_getArray(&ucmp8Array2) != NULL ||
ucmp8Array2.fBogus != TRUE){
log_err("Error: ucmp8_initBogus() failed\n");
}
/*ucmp8_getkBlockCount*/
if(ucmp8_getkBlockCount() != 128 ){
log_err("Error in ucmp8_getkBlockCount()\n");
}
values=(int8_t*)ucmp8_getArray(&ucmp8Array1);
if((uint8_t)values[0] != (uint8_t)TEST_DEFAULT_VALUE){
log_err("Error: getArray() or init failed\n");
}
/*ucmp8_compact*/
if(ucmp8Array1.fCompact == TRUE){
log_err("Error: ucmp8_open failed Got compact for expanded data\n");
}
ucmp8_compact(&ucmp8Array1, 1);
if(ucmp8Array1.fCompact != TRUE){
log_err("Error: ucmp8_compact failed\n");
}
/*ucmp8_set*/
ucmp8_set(&ucmp8Array1, 0, (uint8_t)0xFE);
valuesSet=(uint8_t*)ucmp8_getArray(&ucmp8Array1);
if(valuesSet[0] != (uint8_t)0xFE ){
log_err("ERROR: ucmp8_set() failed\n");
}
if(ucmp8Array1.fCompact == TRUE){
log_err("Error: ucmp8_set didn't expand the compact data \n");
}
/*ucmp8_set*/
ucmp8_compact(&ucmp8Array1, 1);
ucmp8_set(&ucmp8Array1, 0, (uint8_t)0xFD);
valuesSet=(uint8_t*)ucmp8_getArray(&ucmp8Array1);
if(valuesSet[0] != (uint8_t)0xFD ){
log_err("ERROR: ucmp8_set() failed\n");
}
if(ucmp8Array1.fCompact == TRUE){
log_err("Error: ucmp8_set didn't expand the compact data \n");
}
/*ucmp8_setRange*/
ucmp8_compact(&ucmp8Array1, 1);
ucmp8_setRange(&ucmp8Array1, 0, 10, (uint8_t)0xFD);
query(&ucmp8Array1);
log_verbose("Testing ucmp8_flattenMem()\n");
{
int32_t len = 0;
const uint8_t *buff = NULL;
UMemoryStream *MS = uprv_mstrm_openNew(65536);
int32_t size = ucmp8_flattenMem(&ucmp8Array1, MS);
/* try after compacting */
buff = uprv_mstrm_getBuffer(MS, &len);
if(size == 0 || len == 0 || buff == NULL) {
log_err("Unable to flatten!\n");
} else {
log_verbose("Testing ucmp8_initFromData()\n");
ucmp8_initFromData(&ucmp8Clone, &buff, &status);
if(U_FAILURE(status) || ucmp8_isBogus(&ucmp8Clone) == TRUE){
log_err("ERROR: ucmp8_initFromData() failed\n");
status = U_ZERO_ERROR;
} else {
query(&ucmp8Clone);
ucmp8_close(&ucmp8Clone);
}
}
uprv_mstrm_close(MS);
}
/*
openAdopt, initAdopt, openAlias, initAlias
*/
log_verbose("Testing aliasers and adopters\n");
{
int32_t count = ucmp8_getCount(&ucmp8Array1);
const uint16_t *tIndex = ucmp8_getIndex(&ucmp8Array1);
const int8_t *tValues = ucmp8_getArray(&ucmp8Array1);
uint16_t *index = (uint16_t *)malloc(UCMP8_kIndexCount*sizeof(uint16_t));
values = (int8_t *)malloc(count);
memcpy(index, tIndex, UCMP8_kIndexCount*sizeof(uint16_t));
memcpy(values, tValues, count);
ucmp8_initAlias(&aliaser, index, values, count);
query(&aliaser);
ucmp8_close(&aliaser);
pAliaser = ucmp8_openAlias(index, values, count);
query(pAliaser);
ucmp8_close(pAliaser);
ucmp8_initAdopt(&adopter, index, values, count);
query(&adopter);
ucmp8_close(&adopter);
index = (uint16_t *)malloc(UCMP8_kIndexCount*sizeof(uint16_t));
values = (int8_t *)malloc(count);
memcpy(index, tIndex, UCMP8_kIndexCount*sizeof(uint16_t));
memcpy(values, tValues, count);
pAdopter = ucmp8_openAdopt(index, values, count);
query(pAdopter);
ucmp8_close(pAdopter);
}
ucmp8_close(&ucmp8Array1);
ucmp8_close(&ucmp8Array2);
ucmp8_close(ucmp8Array);
}