scuffed-code/icu4c/source/test/iotest/iotest.cpp
George Rhoten 191626c64a ICU-837 Add a light test for snprintf.
X-SVN-Rev: 8028
2002-03-14 23:12:15 +00:00

749 lines
28 KiB
C++

/*
**********************************************************************
* Copyright (C) 2002-2002, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
* file name: iotest.cpp
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* created on: 2002feb21
* created by: George Rhoten
*/
#include "unicode/ustdio.h"
#include "unicode/ustream.h"
#include "unicode/ucnv.h"
#include "unicode/unistr.h"
#include "unicode/ustring.h"
#include "unicode/ctest.h"
#include "ustr_imp.h"
#if U_IOSTREAM_SOURCE >= 199711
#include <iostream>
#include <strstream>
using namespace std;
#elif U_IOSTREAM_SOURCE >= 198506
#include <iostream.h>
#include <strstream.h>
#endif
#include <string.h>
static char STANDARD_TEST_FILE[] = "iotest-c.txt";
static const int32_t STANDARD_TEST_NUM_RANGE = 1000;
#ifdef WIN32
static const UChar NEW_LINE[] = {0x0d,0x0a,0};
#define C_NEW_LINE "\r\n"
#else
static const UChar NEW_LINE[] = {0x0a,0};
#define C_NEW_LINE "\n"
#endif
static void TestFile() {
UFILE *myFile = u_fopen(STANDARD_TEST_FILE, "w", NULL, NULL);
int32_t n[1];
float myFloat = -1234.0;
UDate myDate = 0.0;
UDate dec_31_1969 = -57600000.000000; /* TODO: These are not correct */
UDate midnight = 86400000.000000; /* TODO: These are not correct */
UDate myNewDate = -1.0;
int32_t newValuePtr[1];
double newDoubleValuePtr[1];
UChar myUString[512];
UChar uStringBuf[512];
char myString[512] = "";
char testBuf[512] = "";
u_memset(myUString, 0x0a, sizeof(myUString)/ sizeof(*myUString));
u_memset(uStringBuf, 0x0a, sizeof(uStringBuf) / sizeof(*uStringBuf));
if (myFile == NULL) {
log_err("Can't write test file.");
return;
}
*n = -1234;
/* Test fprintf */
u_fprintf(myFile, "Signed decimal integer %%d: %d\n", *n);
u_fprintf(myFile, "Signed decimal integer %%i: %i\n", *n);
u_fprintf(myFile, "Unsigned octal integer %%o: %o\n", *n);
u_fprintf(myFile, "Unsigned decimal integer %%u: %u\n", *n);
u_fprintf(myFile, "Lowercase unsigned hexadecimal integer %%x: %x\n", *n);
u_fprintf(myFile, "Uppercase unsigned hexadecimal integer %%X: %X\n", *n);
u_fprintf(myFile, "Float %%f: %f\n", myFloat);
u_fprintf(myFile, "Lowercase float %%e: %e\n", myFloat);
u_fprintf(myFile, "Uppercase float %%E: %E\n", myFloat);
u_fprintf(myFile, "Lowercase float %%g: %g\n", myFloat);
u_fprintf(myFile, "Uppercase float %%G: %G\n", myFloat);
// u_fprintf(myFile, "Pointer %%p: %p\n", myFile);
u_fprintf(myFile, "Char %%c: %c\n", 'A');
u_fprintf(myFile, "UChar %%K (non-ANSI, should be %%C for Microsoft?): %K\n", L'A');
u_fprintf(myFile, "String %%s: %s\n", "My-String");
u_fprintf(myFile, "Unicode String %%U (non-ANSI, should be %%S for Microsoft?): %U\n", L"My-String");
u_fprintf(myFile, "Date %%D (non-ANSI): %D\n", myDate);
u_fprintf(myFile, "Time %%T (non-ANSI): %T\n", myDate);
u_fprintf(myFile, "Percent %%P (non-ANSI): %P\n", myFloat);
u_fprintf(myFile, "Currency %%M (non-ANSI): %M\n", myFloat);
u_fprintf(myFile, "Spell Out %%V (non-ANSI): %V\n", myFloat);
*n = 1;
u_fprintf(myFile, "Pointer to integer (Count) %%n: n=%d %n n=%d\n", *n, n, *n);
u_fprintf(myFile, "Pointer to integer Value: %d\n", *n);
*n = 1;
fprintf(u_fgetfile(myFile), "\tNormal fprintf count: n=%d %n n=%d\n", *n ,n, *n);
fprintf(u_fgetfile(myFile), "\tNormal fprintf count value: n=%d\n", *n);
u_fclose(myFile);
myFile = u_fopen(STANDARD_TEST_FILE, "r", NULL, NULL);
if (myFile == NULL) {
log_err("Can't read test file.");
return;
}
*n = -1234;
*newValuePtr = 1;
u_fscanf(myFile, "Signed decimal integer %%d: %d\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%d Got: %d, Expected: %d\n", *newValuePtr, *n);
}
*newValuePtr = 1;
u_fscanf(myFile, "Signed decimal integer %%i: %i\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%i Got: %i, Expected: %i\n", *newValuePtr, *n);
}
*newValuePtr = 1;
u_fscanf(myFile, "Unsigned octal integer %%o: %o\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%o Got: %o, Expected: %o\n", *newValuePtr, *n);
}
*newValuePtr = 1;
u_fscanf(myFile, "Unsigned decimal integer %%u: %u\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%u Got: %u, Expected: %u\n", *newValuePtr, *n);
}
*newValuePtr = 1;
u_fscanf(myFile, "Lowercase unsigned hexadecimal integer %%x: %x\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%x Got: %x, Expected: %x\n", *newValuePtr, *n);
}
*newValuePtr = 1;
u_fscanf(myFile, "Uppercase unsigned hexadecimal integer %%X: %X\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%X Got: %X, Expected: %X\n", *newValuePtr, *n);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Float %%f: %f\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%f Got: %f, Expected: %f\n", *newDoubleValuePtr, myFloat);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Lowercase float %%e: %e\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%e Got: %e, Expected: %e\n", *newDoubleValuePtr, myFloat);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Uppercase float %%E: %E\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%E Got: %E, Expected: %E\n", *newDoubleValuePtr, myFloat);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Lowercase float %%g: %g\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%g Got: %g, Expected: %g\n", *newDoubleValuePtr, myFloat);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Uppercase float %%G: %G\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%G Got: %G, Expected: %G\n", *newDoubleValuePtr, myFloat);
}
// u_fscanf(myFile, "Pointer %%p: %p\n", newDoubleValue);
u_fscanf(myFile, "Char %%c: %c\n", myString);
if (*myString != 'A') {
log_err("%%c Got: %c, Expected: A\n", *myString);
}
u_fscanf(myFile, "UChar %%K (non-ANSI, should be %%C for Microsoft?): %K\n", myUString);
if (*myUString != L'A') {
log_err("%%C Got: %C, Expected: A\n", *myUString);
}
u_fscanf(myFile, "String %%s: %s\n", myString);
if (strcmp(myString, "My-String")) {
log_err("%%s Got: %s, Expected: My String\n", myString);
}
u_fscanf(myFile, "Unicode String %%U (non-ANSI, should be %%S for Microsoft?): %U\n", myUString);
if (u_strcmp(myUString, L"My-String")) {
log_err("%%S Got: %S, Expected: My String\n", myUString);
}
myNewDate = -1.0;
u_fscanf(myFile, "Date %%D (non-ANSI): %D\n", &myNewDate);
if (myNewDate != dec_31_1969) {
log_err("%%D Got: %f, Expected: %f\n", myNewDate, dec_31_1969);
}
myNewDate = -1.0;
u_fscanf(myFile, "Time %%T (non-ANSI): %T\n", &myNewDate);
if (myNewDate != midnight) {
log_err("%%T Got: %f, Expected: %f\n", myNewDate, midnight);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Percent %%P (non-ANSI): %P\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%P Got: %P, Expected: %P\n", *newDoubleValuePtr, myFloat);
}
*newDoubleValuePtr = -1.0;
u_fscanf(myFile, "Currency %%M (non-ANSI): %M\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%P Got: %P, Expected: %P\n", *newDoubleValuePtr, myFloat);
}
/*
u_fscanf(myFile, "Spell Out %%V (non-ANSI): %V\n", *n);
*n = 1;
u_fscanf(myFile, "Pointer to integer (Count) %%n: n=%d %n n=%d\n", *n, n, *n);
u_fscanf(myFile, "Pointer to integer Value: %d\n", *n);
*n = 1;
fscanf(u_fgetfile(myFile), "\tNormal fprintf count: n=%d %n n=%d\n", *n ,n, *n);
fscanf(u_fgetfile(myFile), "\tNormal fprintf count value: n=%d\n", *n);
*/
u_fclose(myFile);
}
static void TestFilePrintCompatibility() {
UFILE *myFile = u_fopen(STANDARD_TEST_FILE, "wb", "en_US_POSIX", NULL);
FILE *myCFile;
int32_t num;
char cVal;
static const UChar emptyStr[] = {0};
char readBuf[512] = "";
char testBuf[512] = "";
if (myFile == NULL) {
log_err("Can't read test file.");
return;
}
/* Compare against C API compatibility */
for (num = -STANDARD_TEST_NUM_RANGE; num < STANDARD_TEST_NUM_RANGE; num++) {
u_fprintf(myFile, "%x ", num);
u_fprintf(myFile, "%X ", num);
u_fprintf(myFile, "%o ", num);
u_fprintf(myFile, "%d ", num);
u_fprintf(myFile, "%i ", num);
u_fprintf(myFile, "%f ", (double)num);
u_fprintf(myFile, "%e ", (double)num);
u_fprintf(myFile, "%E ", (double)num);
u_fprintf(myFile, "%g ", (double)num);
u_fprintf(myFile, "%G", (double)num);
u_fputs(emptyStr, myFile);
}
u_fprintf_u(myFile, NEW_LINE);
for (num = 0; num < 0x80; num++) {
u_fprintf(myFile, "%c", num);
}
u_fclose(myFile);
myCFile = fopen(STANDARD_TEST_FILE, "rb");
if (myFile == NULL) {
log_err("Can't read test file.");
return;
}
for (num = -STANDARD_TEST_NUM_RANGE; num < STANDARD_TEST_NUM_RANGE; num++) {
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%x", num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%x Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%X", num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%X Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%o", num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%o Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
/* fprintf is not compatible on all platforms e.g. the iSeries */
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%d", num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%d Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%i", num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%i Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%f", (double)num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%f Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%e", (double)num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%e Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%E", (double)num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%E Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%g", (double)num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%g Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
fscanf(myCFile, "%s", readBuf);
sprintf(testBuf, "%G", (double)num);
if (strcmp(readBuf, testBuf) != 0) {
log_err("%%G Got: \"%s\", Expected: \"%s\"\n", readBuf, testBuf);
}
}
/* Properly eat the newlines */
for (num = 0; num < u_strlen(NEW_LINE); num++) {
fscanf(myCFile, "%c", &cVal);
if (cVal != NEW_LINE[num]) {
log_err("OS newline error\n");
}
}
for (num = 0; num < u_strlen(NEW_LINE); num++) {
fscanf(myCFile, "%c", &cVal);
if (cVal != NEW_LINE[num]) {
log_err("ustdio newline error\n");
}
}
for (num = 0; num < 0x80; num++) {
cVal = -1;
fscanf(myCFile, "%c", &cVal);
if (num != cVal) {
log_err("%%c Got: 0x%x, Expected: 0x%x\n", cVal, num);
}
}
fclose(myCFile);
}
static void TestString() {
int32_t n[1];
float myFloat = -1234.0;
UDate myDate = 0.0;
UDate dec_31_1969 = -57600000.000000; /* TODO: These are not correct */
UDate midnight = 86400000.000000; /* TODO: These are not correct */
UDate myNewDate = -1.0;
int32_t newValuePtr[1];
double newDoubleValuePtr[1];
UChar myUString[512];
UChar uStringBuf[512];
char myString[512] = "";
char testBuf[512] = "";
u_memset(myUString, 0x0a, sizeof(myUString)/ sizeof(*myUString));
u_memset(uStringBuf, 0x0a, sizeof(uStringBuf) / sizeof(*uStringBuf));
*n = -1234;
/* u_snprintf(uStringBuf, 28, NULL, "Signed decimal integer d: %d\n", *n);
u_snprintf(uStringBuf, 3, NULL, "Signed decimal integer i: %i\n", *n);
u_snprintf(uStringBuf, 3, NULL, "Unsigned octal integer o: %o\n", *n);
u_snprintf(uStringBuf, 3, NULL, "Unsigned decimal integer %%u: %u\n", *n);
u_snprintf(uStringBuf, 3, NULL, "Lowercase unsigned hexadecimal integer x: %x\n", *n);
u_snprintf(uStringBuf, 3, NULL, "Uppercase unsigned hexadecimal integer X: %X\n", *n);
u_snprintf(uStringBuf, 3, NULL, "Float f: %f\n", myFloat);
u_snprintf(uStringBuf, 3, NULL, "Lowercase float e: %e\n", myFloat);
u_snprintf(uStringBuf, 3, NULL, "Uppercase float E: %E\n", myFloat);
u_snprintf(uStringBuf, 3, NULL, "Lowercase float g: %g\n", myFloat);
u_snprintf(uStringBuf, 3, NULL, "Uppercase float G: %G\n", myFloat);
// u_sprintf(uStringBuf, NULL, "Pointer %%p: %p\n", myFile);
u_snprintf(uStringBuf, 3, NULL, "Char c: %c\n", 'A');
u_sprintf(uStringBuf, NULL, "UChar %%K (non-ANSI, should be %%C for Microsoft?): %K\n", L'A');
u_sprintf(uStringBuf, NULL, "String %%s: %s\n", "My-String");
u_sprintf(uStringBuf, NULL, "Unicode String %%U (non-ANSI, should be %%S for Microsoft?): %U\n", L"My-String");
u_sprintf(uStringBuf, NULL, "Date %%D (non-ANSI): %D\n", myDate);
u_sprintf(uStringBuf, NULL, "Time %%T (non-ANSI): %T\n", myDate);
u_sprintf(uStringBuf, NULL, "Percent %%P (non-ANSI): %P\n", myFloat);
u_sprintf(uStringBuf, NULL, "Currency %%M (non-ANSI): %M\n", myFloat);
u_sprintf(uStringBuf, NULL, "Spell Out %%V (non-ANSI): %V\n", *n);*/
/* Test sprintf */
u_sprintf(uStringBuf, NULL, "Signed decimal integer d: %d\n", *n);
*newValuePtr = 1;
u_sscanf(uStringBuf, NULL, "Signed decimal integer d: %d\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%d Got: %d, Expected: %d\n", *newValuePtr, *n);
}
u_sprintf(uStringBuf, NULL, "Signed decimal integer i: %i\n", *n);
*newValuePtr = 1;
u_sscanf(uStringBuf, NULL, "Signed decimal integer i: %i\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%i Got: %i, Expected: %i\n", *newValuePtr, *n);
}
u_sprintf(uStringBuf, NULL, "Unsigned octal integer o: %o\n", *n);
*newValuePtr = 1;
u_sscanf(uStringBuf, NULL, "Unsigned octal integer o: %o\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%o Got: %o, Expected: %o\n", *newValuePtr, *n);
}
u_sprintf(uStringBuf, NULL, "Unsigned decimal integer %%u: %u\n", *n);
*newValuePtr = 1;
u_sscanf(uStringBuf, NULL, "Unsigned decimal integer %%u: %u\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%u Got: %u, Expected: %u\n", *newValuePtr, *n);
}
u_sprintf(uStringBuf, NULL, "Lowercase unsigned hexadecimal integer x: %x\n", *n);
*newValuePtr = 1;
u_sscanf(uStringBuf, NULL, "Lowercase unsigned hexadecimal integer x: %x\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%x Got: %x, Expected: %x\n", *newValuePtr, *n);
}
u_sprintf(uStringBuf, NULL, "Uppercase unsigned hexadecimal integer X: %X\n", *n);
*newValuePtr = 1;
u_sscanf(uStringBuf, NULL, "Uppercase unsigned hexadecimal integer X: %X\n", newValuePtr);
if (*n != *newValuePtr) {
log_err("%%X Got: %X, Expected: %X\n", *newValuePtr, *n);
}
u_sprintf(uStringBuf, NULL, "Float f: %f\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Float f: %f\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%f Got: %f, Expected: %f\n", *newDoubleValuePtr, myFloat);
}
u_sprintf(uStringBuf, NULL, "Lowercase float e: %e\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Lowercase float e: %e\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%e Got: %e, Expected: %e\n", *newDoubleValuePtr, myFloat);
}
u_sprintf(uStringBuf, NULL, "Uppercase float E: %E\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Uppercase float E: %E\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%E Got: %E, Expected: %E\n", *newDoubleValuePtr, myFloat);
}
u_sprintf(uStringBuf, NULL, "Lowercase float g: %g\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Lowercase float g: %g\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%g Got: %g, Expected: %g\n", *newDoubleValuePtr, myFloat);
}
u_sprintf(uStringBuf, NULL, "Uppercase float G: %G\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Uppercase float G: %G\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%G Got: %G, Expected: %G\n", *newDoubleValuePtr, myFloat);
}
// u_sprintf(uStringBuf, NULL, "Pointer %%p: %p\n", myFile);
u_sprintf(uStringBuf, NULL, "Char c: %c\n", 'A');
u_sscanf(uStringBuf, NULL, "Char c: %c\n", myString);
if (*myString != 'A') {
log_err("%%c Got: %c, Expected: A\n", *myString);
}
u_sprintf(uStringBuf, NULL, "UChar %%K (non-ANSI, should be %%C for Microsoft?): %K\n", L'A');
u_sscanf(uStringBuf, NULL, "UChar %%K (non-ANSI, should be %%C for Microsoft?): %K\n", myUString);
if (*myUString != L'A') {
log_err("%%C Got: %C, Expected: A\n", *myUString);
}
u_sprintf(uStringBuf, NULL, "String %%s: %s\n", "My-String");
u_sscanf(uStringBuf, NULL, "String %%s: %s\n", myString);
if (strcmp(myString, "My-String")) {
log_err("%%s Got: %s, Expected: My-String\n", myString);
}
if (uStringBuf[21] != 0) {
log_err("String not terminated. Got %c\n", uStringBuf[21] );
}
u_sprintf(uStringBuf, NULL, "Unicode String %%U (non-ANSI, should be %%S for Microsoft?): %U\n", L"My-String");
u_sscanf(uStringBuf, NULL, "Unicode String %%U (non-ANSI, should be %%S for Microsoft?): %U\n", myUString);
if (u_strcmp(myUString, L"My-String")) {
log_err("%%S Got: %S, Expected: My String\n", myUString);
}
u_sprintf(uStringBuf, NULL, "Date %%D (non-ANSI): %D\n", myDate);
myNewDate = -1.0;
u_sscanf(uStringBuf, NULL, "Date %%D (non-ANSI): %D\n", &myNewDate);
if (myNewDate != dec_31_1969) {
log_err("%%D Got: %f, Expected: %f\n", myNewDate, dec_31_1969);
}
u_sprintf(uStringBuf, NULL, "Time %%T (non-ANSI): %T\n", myDate);
myNewDate = -1.0;
u_sscanf(uStringBuf, NULL, "Time %%T (non-ANSI): %T\n", &myNewDate);
if (myNewDate != midnight) {
log_err("%%T Got: %f, Expected: %f\n", myNewDate, midnight);
}
u_sprintf(uStringBuf, NULL, "Percent %%P (non-ANSI): %P\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Percent %%P (non-ANSI): %P\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%P Got: %P, Expected: %P\n", *newDoubleValuePtr, myFloat);
}
u_sprintf(uStringBuf, NULL, "Currency %%M (non-ANSI): %M\n", myFloat);
*newDoubleValuePtr = -1.0;
u_sscanf(uStringBuf, NULL, "Currency %%M (non-ANSI): %M\n", newDoubleValuePtr);
if (myFloat != *newDoubleValuePtr) {
log_err("%%P Got: %P, Expected: %P\n", *newDoubleValuePtr, myFloat);
}
// u_sprintf(uStringBuf, NULL, "Spell Out %%V (non-ANSI): %V\n", *n);
// u_sscanf(uStringBuf, NULL, "Pointer %%p: %p\n", myFile);
// u_sscanf(uStringBuf, NULL, "Spell Out %%V (non-ANSI): %V\n", *n);
}
static void TestStringCompatibility() {
UChar myUString[512];
UChar uStringBuf[512];
char myString[512] = "";
char testBuf[512] = "";
int32_t num;
u_memset(myUString, 0x0a, sizeof(myUString)/ sizeof(*myUString));
u_memset(uStringBuf, 0x0a, sizeof(uStringBuf) / sizeof(*uStringBuf));
/* Compare against C API compatibility */
for (num = -STANDARD_TEST_NUM_RANGE; num < STANDARD_TEST_NUM_RANGE; num++) {
sprintf(testBuf, "%x", num);
u_sprintf(uStringBuf, NULL, "%x", num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%x Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%X", num);
u_sprintf(uStringBuf, NULL, "%X", num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%X Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%o", num);
u_sprintf(uStringBuf, NULL, "%o", num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%o Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
/* sprintf is not compatible on all platforms e.g. the iSeries*/
sprintf(testBuf, "%d", num);
u_sprintf(uStringBuf, "en_US_POSIX", "%d", num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%d Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%i", num);
u_sprintf(uStringBuf, "en_US_POSIX", "%i", num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%i Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%f", (double)num);
u_sprintf(uStringBuf, "en_US_POSIX", "%f", (double)num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%f Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%e", (double)num);
u_sprintf(uStringBuf, "en_US_POSIX", "%e", (double)num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%e Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%E", (double)num);
u_sprintf(uStringBuf, "en_US_POSIX", "%E", (double)num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%E Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%g", (double)num);
u_sprintf(uStringBuf, "en_US_POSIX", "%g", (double)num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%g Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
sprintf(testBuf, "%G", (double)num);
u_sprintf(uStringBuf, "en_US_POSIX", "%G", (double)num);
u_austrcpy(myString, uStringBuf);
if (strcmp(myString, testBuf) != 0) {
log_err("%%G Got: \"%s\", Expected: \"%s\"\n", myString, testBuf);
}
}
for (num = 0; num < 0x80; num++) {
testBuf[0] = -1;
uStringBuf[0] = -1;
sprintf(testBuf, "%c", num);
u_sprintf(uStringBuf, NULL, "%c", num);
u_austrcpy(myString, uStringBuf);
if (testBuf[0] != uStringBuf[0] || uStringBuf[0] != num) {
log_err("%%c Got: 0x%x, Expected: 0x%x\n", myString[0], testBuf[0]);
}
}
}
#define Test_u_snprintf(limit, format, value, expectedSize, expectedStr) \
u_uastrcpy(testStr, "xxxxxxxxxxxxxx");\
size = u_snprintf(testStr, limit, "en_US_POSIX", format, value);\
u_austrcpy(cTestResult, testStr);\
if (size != expectedSize || strcmp(cTestResult, expectedStr) != 0) {\
log_err("Unexpected formatting. size=%d expectedSize=%d cTestResult=%s expectedStr=%s\n",\
size, expectedSize, cTestResult, expectedStr);\
}\
else {\
log_verbose("Got: %s", cTestResult);\
}\
static void TestSnprintf() {
UChar testStr[256];
char cTestResult[256];
int32_t size;
Test_u_snprintf(0, "%d", 123, 0, "xxxxxxxxxxxxxx");
Test_u_snprintf(2, "%d", 123, 2, "12xxxxxxxxxxxx");
Test_u_snprintf(3, "%d", 123, 3, "123xxxxxxxxxxx");
Test_u_snprintf(4, "%d", 123, 3, "123");
Test_u_snprintf(0, "%s", "abcd", 0, "xxxxxxxxxxxxxx");
Test_u_snprintf(3, "%s", "abcd", 3, "abcxxxxxxxxxxx");
Test_u_snprintf(4, "%s", "abcd", 4, "abcdxxxxxxxxxx");
Test_u_snprintf(5, "%s", "abcd", 4, "abcd");
Test_u_snprintf(0, "%e", 12.34, 0, "xxxxxxxxxxxxxx");
Test_u_snprintf(1, "%e", 12.34, 1, "1xxxxxxxxxxxxx");
Test_u_snprintf(2, "%e", 12.34, 2, "1.xxxxxxxxxxxx");
Test_u_snprintf(3, "%e", 12.34, 3, "1.2xxxxxxxxxxx");
Test_u_snprintf(5, "%e", 12.34, 5, "1.234xxxxxxxxx");
Test_u_snprintf(6, "%e", 12.34, 6, "1.2340xxxxxxxx");
Test_u_snprintf(8, "%e", 12.34, 8, "1.234000xxxxxx");
Test_u_snprintf(9, "%e", 12.34, 9, "1.234000exxxxx");
Test_u_snprintf(10, "%e", 12.34, 10, "1.234000e+xxxx");
Test_u_snprintf(11, "%e", 12.34, 11, "1.234000e+0xxx");
Test_u_snprintf(13, "%e", 12.34, 13, "1.234000e+001x");
Test_u_snprintf(14, "%e", 12.34, 13, "1.234000e+001");
}
static void TestStream() {
#if U_IOSTREAM_SOURCE >= 198506
char testStreamBuf[512];
const char *testStr = "Beginning of test str1 <<432 1" C_NEW_LINE " UTF-8 \xCE\xBC\xF0\x90\x80\x81\xF0\x90\x80\x82";
ostrstream outTestStream(testStreamBuf, sizeof(testStreamBuf));
istrstream inTestStream(" tHis\xCE\xBC\xE2\x80\x82 mu world", 0);
const UChar thisMu[] = { 0x74, 0x48, 0x69, 0x73, 0x3BC, 0};
const UChar mu[] = { 0x6D, 0x75, 0};
UnicodeString str1 = UNICODE_STRING_SIMPLE("str1");
UnicodeString str2 = UNICODE_STRING_SIMPLE(" <<");
UnicodeString str3 = UNICODE_STRING_SIMPLE("4");
UnicodeString str4 = UNICODE_STRING_SIMPLE(" UTF-8 ");
UnicodeString inStr = UNICODE_STRING_SIMPLE(" UTF-8 ");
UnicodeString inStr2;
char defConvName[128];
char inStrC[128];
UErrorCode status = U_ZERO_ERROR;
UConverter *defConv;
str4.append((UChar32)0x03BC); /* mu */
str4.append((UChar32)0x10001);
str4.append((UChar32)0x10002);
/* release the default converter and use utf-8 for a bit */
defConv = u_getDefaultConverter(&status);
if (U_FAILURE(status)) {
log_err("Can't get default converter");
return;
}
ucnv_close(defConv);
strcpy(defConvName, ucnv_getDefaultName());
ucnv_setDefaultName("UTF-8");
outTestStream << "Beginning of test ";
outTestStream << str1 << " " << str2 << str3 << 3 << "2 " << 1.0 << NEW_LINE << str4 << ends;
if (strcmp(testStreamBuf, testStr) != 0) {
log_err("Got: \"%s\", Expected: \"%s\"\n", testStreamBuf, testStr);
}
inTestStream >> inStr >> inStr2;
if (inStr.compare(thisMu) != 0) {
u_austrncpy(inStrC, inStr.getBuffer(), inStr.length());
inStrC[inStr.length()] = 0;
log_err("Got: \"%s\", Expected: \"tHis\\u03BC\"\n", inStrC);
}
if (inStr2.compare(mu) != 0) {
u_austrncpy(inStrC, inStr.getBuffer(), inStr.length());
inStrC[inStr.length()] = 0;
log_err("Got: \"%s\", Expected: \"mu\"\n", inStrC);
}
/* return the default converter to the original state. */
ucnv_setDefaultName(defConvName);
defConv = u_getDefaultConverter(&status);
if (U_FAILURE(status)) {
log_err("Can't get default converter");
return;
}
ucnv_close(defConv);
#else
log_err("U_IOSTREAM_SOURCE is disabled");
#endif
}
static void addAllTests(TestNode** root) {
addTest(root, &TestFile, "fileapi/TestFile");
addTest(root, &TestFilePrintCompatibility, "fileapi/TestFilePrintCompatibility");
addTest(root, &TestString, "strapi/TestString");
addTest(root, &TestStringCompatibility, "strapi/TestStringCompatibility");
addTest(root, &TestSnprintf, "strapi/TestSnprintf");
addTest(root, &TestStream, "iostream/TestStream");
}
int main(int argc, char* argv[])
{
int32_t nerrors = 0;
TestNode *root = NULL;
addAllTests(&root);
nerrors = processArgs(root, argc, argv);
return nerrors;
}