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#include "lily-test.h"
#include "tests.h"
const char * test_INFO()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
INFO("the number is %d", 10);
INFO("the string is '%s'", "hello world");
if (lily_g.failed)
return "INFO caused failure!";
if (lily_g.HEAD.next == NULL)
return "INFO did not append any messages!";
lily_test_msg_t *m = lily_g.HEAD.next;
if (strcmp(m->msg, "the number is 10") != 0)
return "the first message is incorrect";
m = m->next;
if (m == NULL)
return "there is not a second message!";
if (strcmp(m->msg, "the string is 'hello world'") != 0)
return "the second message is incorrect";
if (m->next != NULL)
return "too many messages";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
const char * test_CHECK()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
CHECK(1 == 0);
CHECK(0 == 0);
CHECK(4 == 3);
if (lily_g.HEAD.next == NULL)
return "CHECK did not append any failure messages";
lily_test_msg_t *m = lily_g.HEAD.next;
if (strcmp(m->msg, "CHECK failed: 1 == 0") != 0)
return "first assert has wrong message";
if (m->next == NULL)
return "only one message appended";
m = m->next;
if (strcmp(m->msg, "CHECK failed: 4 == 3") != 0)
return "second message is incorrect";
if (m->next != NULL)
return "more than two messages appended!";
if (!lily_g.failed)
return "test did not fail!";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
const char * test_CHECK_EQ()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
int k = 5;
CHECK_EQ(k, 5, "%d");
CHECK_EQ(4, k, "%02d");
if (lily_g.HEAD.next == NULL)
return "CHECK_EQ did not append any failure message";
if (lily_g.HEAD.next->next != NULL)
return "CHECK_EQ appended more than one message";
if (strcmp(lily_g.HEAD.next->msg, "CHECK failed: 4 == k\n 4 = 04\n k = 05") != 0)
return "incorrect message";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
const char * test_CHECK_EQF()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
lily_set_epsilon(0.2);
CHECK_EQF(0.5, 0.4, "%0.1f");
CHECK_EQF(0.5, 0.0, "%0.1f");
if (lily_g.HEAD.next == NULL)
return "CHECK_EQF did not append any failure message";
if (lily_g.HEAD.next->next != NULL)
return "CHECK_EQF appended more than one message";
if (strcmp(
lily_g.HEAD.next->msg,
"CHECK failed: 0.5 == 0.0\n 0.5 = 0.5\n 0.0 = 0.0\n epsilon: 0.200000"
) != 0)
return "incorrect message";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
const char * test_CHECK_EQS()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
const char *a = "hi";
const char *b = "bye";
CHECK_EQS(a, b);
CHECK_EQS("hi hi"+3, a);
if (lily_g.HEAD.next == NULL)
return "CHECK_EQS did not append any failure message";
if (lily_g.HEAD.next->next != NULL)
return "CHECK_EQS appended more than one message";
if (strcmp(
lily_g.HEAD.next->msg,
"CHECK failed: a == b\n a = \"hi\"\n b = \"bye\""
) != 0)
return "incorrect message";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
int aR, bR;
static void f_test_REQUIRE()
{
aR = 5;
REQUIRE(2+2 == 5);
bR = 5;
}
const char * test_REQUIRE()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
aR = 0; bR = 0;
int test_failed = setjmp(lily_g.env);
if (test_failed) {
if (!lily_g.failed)
return "test did not fail!";
if (lily_g.HEAD.next == NULL)
return "test did not generate any messages";
if (strcmp(lily_g.HEAD.next->msg, "REQUIRE failed: 2+2 == 5") != 0)
return "test generated incorrect message";
if (lily_g.HEAD.next->next != NULL)
return "test generated too many messages";
if (bR == 5)
return "test kept executing after failed REQUIRE";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
else {
f_test_REQUIRE();
return "test function did not longjump!";
}
}
void f_test_REQUIRE_EQ()
{
REQUIRE_EQ(2, 2, "%d");
REQUIRE_EQ(2, 4, "%d");
REQUIRE_EQ(2, 1, "%d");
}
const char * test_REQUIRE_EQ()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
int test_failed = setjmp(lily_g.env);
if (test_failed) {
if (!lily_g.failed)
return "test did not mark itself as failed";
if (lily_g.HEAD.next == NULL)
return "test did not generate any messages";
if (strcmp(lily_g.HEAD.next->msg, "REQUIRE failed: 2 == 4\n 2 = 2\n 4 = 4") != 0)
return "test generated incorrect message";
if (lily_g.HEAD.next->next != NULL)
return "test generated too many messages";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
else {
f_test_REQUIRE_EQ();
return "test function did not longjump!";
}
}
void f_test_REQUIRE_EQF()
{
lily_set_epsilon(0.2);
REQUIRE_EQF(0.5, 0.0, "%0.1f");
REQUIRE_EQF(0.5, 0.4, "%0.1f");
}
const char * test_REQUIRE_EQF()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
int test_failed = setjmp(lily_g.env);
if (test_failed) {
if (lily_g.HEAD.next == NULL)
return "REQUIRE_EQF did not append any failure message";
if (lily_g.HEAD.next->next != NULL)
return "REQUIRE_EQF appended more than one message";
if (strcmp(
lily_g.HEAD.next->msg,
"REQUIRE failed: 0.5 == 0.0\n 0.5 = 0.5\n 0.0 = 0.0\n epsilon: 0.200000"
) != 0)
return "incorrect message";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
else {
f_test_REQUIRE_EQF();
return "test continued to run!";
}
}
void f_test_REQUIRE_EQS()
{
const char *a = "hi";
const char *b = "bye";
REQUIRE_EQS(a, b);
REQUIRE_EQS("hi hi"+3, a);
}
const char * test_REQUIRE_EQS()
{
lily_g.HEAD.next = NULL;
lily_g.TAIL = &(lily_g.HEAD);
lily_g.failed = 0;
int test_failed = setjmp(lily_g.env);
if (test_failed) {
if (lily_g.HEAD.next == NULL)
return "REQUIRE_EQS did not append any failure message";
if (lily_g.HEAD.next->next != NULL)
return "REQUIRE_EQS appended more than one message";
if (strcmp(
lily_g.HEAD.next->msg,
"REQUIRE failed: a == b\n a = \"hi\"\n b = \"bye\""
) != 0)
return "incorrect message";
lily_msg_destroy(lily_g.HEAD.next);
return 0;
}
else {
f_test_REQUIRE_EQS();
return "test continued to run!";
}
}
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