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#import <stdio.h>
#import <string.h>
#import "OFString.h"
#import "OFExceptions.h"
#define NUM_TESTS 10
#define SUCCESS \
printf("\r\033[1;%dmTests successful: %zd/%d\033[0m", \
(i == NUM_TESTS - 1 ? 32 : 33), i + 1, NUM_TESTS); \
fflush(stdout);
#define FAIL \
printf("\r\033[K\033[1;31mTest %zd/%d failed!\033[m\n", \
i + 1, NUM_TESTS); \
return 1;
#define CHECK(cond) \
if (cond) { \
SUCCESS \
} else { \
FAIL \
} \
i++;
#define CHECK_EXCEPT(code, exception) \
@try { \
code; \
FAIL \
} @catch (exception *e) { \
SUCCESS \
} \
i++;
int
main()
{
size_t i = 0;
OFString *s1 = [OFString newFromCString: "test"];
OFString *s2 = [OFString newFromCString: ""];
OFString *s3;
OFString *s4 = [OFString new];
s3 = [s1 clone];
if (![s1 compareTo: s3])
CHECK(![s1 compareTo: s3])
puts("s1 and s3 match! GOOD!");
else {
puts("s1 and s3 don't match!");
return 1;
}
[s2 appendCString: "123"];
[s4 setTo: s2];
if (![s2 compareTo: s4])
CHECK(![s2 compareTo: s4])
puts("s2 and s4 match! GOOD!");
else {
puts("s2 and s4 don't match!");
return 1;
}
if (!strcmp([[s1 append: s2] cString], "test123"))
CHECK(!strcmp([[s1 append: s2] cString], "test123"))
puts("s1 appended with s2 is the expected string! GOOD!");
else {
puts("s1 appended with s2 is not the expected string!");
return 1;
}
if (strlen([s1 cString]) == [s1 length] && [s1 length] == 7)
CHECK(strlen([s1 cString]) == [s1 length] && [s1 length] == 7)
puts("s1 has the expected length. GOOD!");
else {
puts("s1 does not have the expected length!");
return 1;
}
if (!strcmp([[s1 reverse] cString], "321tset"))
CHECK(!strcmp([[s1 reverse] cString], "321tset"))
puts("Reversed s1 is expected string! GOOD!");
else {
puts("Reversed s1 is NOT the expected string!");
return 1;
}
if (!strcmp([[s1 upper] cString], "321TSET"))
CHECK(!strcmp([[s1 upper] cString], "321TSET"))
puts("Upper s1 is expected string! GOOD!");
else {
puts("Upper s1 is NOT expected string!");
return 1;
}
if (!strcmp([[s1 lower] cString], "321tset"))
CHECK(!strcmp([[s1 lower] cString], "321tset"))
puts("Lower s1 is expected string! GOOD!");
else {
puts("Lower s1 is NOT expected string!");
return 1;
}
/* Also clears all the memory of the returned C strings */
[s1 free];
[s2 free];
[s3 free];
[s4 free];
/* UTF-8 tests */
@try {
s1 = [OFString newFromCString: "\xE0\x80"];
CHECK_EXCEPT(s1 = [OFString newFromCString: "\xE0\x80"],
puts("First invalid UTF-8 not detected!");
return 1;
} @catch (OFInvalidEncodingException *e) {
OFInvalidEncodingException)
puts("First invalid UTF-8 successfully detected!");
}
@try {
s1 = [OFString newFromCString: "\xF0\x80\x80\xC0"];
CHECK_EXCEPT(s1 = [OFString newFromCString: "\xF0\x80\x80\xC0"],
puts("Second UTF-8 not detected!");
return 1;
} @catch (OFInvalidEncodingException *e) {
OFInvalidEncodingException)
puts("Second UTF-8 successfully detected!");
}
s1 = [OFString newFromCString: "äöü€𝄞"];
if (!strcmp([[s1 reverse] cString], "𝄞€üöä"))
CHECK(!strcmp([[s1 reverse] cString], "𝄞€üöä"))
puts("Reversed UTF-8 string is expected string! GOOD!");
else {
puts("Reversed UTF-8 string is NOT expected string!");
return 1;
}
puts("");
return 0;
}
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