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/*
* ecgen, tool for generating Elliptic curve domain parameters
* Copyright (C) 2017 J08nY
*/
#include <criterion/criterion.h>
#include "io/input.h"
#include "test/default.h"
#include "test/input.h"
#include "test/output.h"
void input_suite_setup(void) {
default_setup();
input_setup();
output_setup();
}
void input_suite_teardown(void) {
default_teardown();
input_teardown();
output_teardown();
}
TestSuite(input, .init = input_suite_setup, .fini = input_suite_teardown);
Test(input, test_prime) {
fprintf(write_in, "5\n");
GEN p = input_prime(NULL, 10);
cr_assert(gequal(p, stoi(5)), );
}
Test(input, test_prime_nan) {
fprintf(write_in, "....\n");
GEN p = input_prime(NULL, 10);
cr_assert(gequal(p, gen_m1), );
}
Test(input, test_prime_nonprime) {
fprintf(write_in, "6\n");
GEN p = input_prime(NULL, 10);
cr_assert(gequal(p, gen_m1), );
}
Test(input, test_prime_newline) {
fprintf(write_in, "\n");
GEN p = input_prime(NULL, 10);
cr_assert(gequal(p, gen_m1), );
}
Test(input, test_int) {
fprintf(write_in, "256\n");
GEN i = input_int(NULL, 10);
cr_assert(gequal(i, stoi(256)), );
}
Test(input, test_int_too_big) {
fprintf(write_in, "256\n");
GEN i = input_int(NULL, 4);
cr_assert(gequal(i, gen_m1), );
}
Test(input, test_int_newline) {
fprintf(write_in, "\n");
GEN i = input_int(NULL, 4);
cr_assert(gequal(i, gen_m1), );
}
Test(input, test_str) {
fprintf(write_in, "something\n");
GEN s = input_string(NULL);
GEN expected = strtoGENstr("something");
cr_assert(gequal(s, expected), );
}
Test(input, test_str_newline) {
fprintf(write_in, "\n");
GEN s = input_string(NULL);
GEN expected = strtoGENstr("");
cr_assert(gequal(s, expected), );
}
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