Final assignment for the course "Real Time and Embedded Systems" of THMMY in AUTH university.
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---
:cmock:
:enforce_strict_ordering: 1
:plugins:
- :array
- :cexception
- :ignore
- :callback
- :return_thru_ptr
- :ignore_arg
- :expect_any_args
:callback_after_arg_check: true
:callback_include_count: false
:treat_externs: :include
:systest:
:types: |
typedef struct _POINT_T {
int x;
int y;
} POINT_T;
:mockable: |
#include "CException.h"
extern void foo(POINT_T* a);
POINT_T* bar(void);
void fooa(POINT_T a[]);
void foos(const char * a);
const char * bars(void);
void no_pointers(int a, const char* b);
int mixed(int a, int* b, int c);
void no_args(void);
:source:
:header: |
#include "CException.h"
void function_a(void);
void function_b(void);
void function_c(void);
int function_d(void);
void function_e(void);
int function_f(void);
:code: |
void function_a(void)
{
foo(bar());
}
void function_b(void) {
fooa(bar());
}
void function_c(void) {
CEXCEPTION_T e;
Try {
foos(bars());
} Catch(e) { foos("err"); }
}
int function_d(void) {
int test_list[] = { 1, 2, 3, 4, 5 };
no_pointers(1, "silly");
return mixed(6, test_list, 7);
}
void function_e(void) {
foos("Hello");
foos("Tuna");
foos("Oranges");
}
int function_f(void) {
int a = 1;
int b = 2;
int c;
POINT_T* pt = bar();
c = pt->x;
c = mixed(a, &b, c);
return b + c;
}
:tests:
:common: |
#include "CException.h"
void setUp(void) {}
void tearDown(void) {}
void my_foo_callback(POINT_T* a) { TEST_ASSERT_EQUAL_INT(2, a->x); }
int my_mixed_callback(int a, int* b, int c) { return a + *b + c; }
:units:
- :pass: TRUE
:should: 'handle the situation where we pass nulls to pointers'
:code: |
test()
{
bar_ExpectAndReturn(NULL);
foo_Expect(NULL);
function_a();
}
- :pass: FALSE
:should: 'handle the situation where we expected nulls to pointers but did not get that'
:code: |
test()
{
POINT_T pt = {1, 2};
bar_ExpectAndReturn(&pt);
foo_Expect(NULL);
function_a();
}
- :pass: FALSE
:should: 'handle the situation where we did not expect nulls to pointers but got null'
:code: |
test()
{
POINT_T ex = {1, 2};
bar_ExpectAndReturn(NULL);
foo_Expect(&ex);
function_a();
}
- :pass: FALSE
:should: 'handle the situation where we pass single object with expect and it is wrong'
:code: |
test()
{
POINT_T pt = {1, 2};
POINT_T ex = {1, 3};
bar_ExpectAndReturn(&pt);
foo_Expect(&ex);
function_a();
}
- :pass: TRUE
:should: 'handle the situation where we pass single object with expect and use array handler'
:code: |
test()
{
POINT_T pt = {1, 2};
POINT_T ex = {1, 2};
bar_ExpectAndReturn(&pt);
foo_ExpectWithArray(&ex, 1);
function_a();
}
- :pass: FALSE
:should: 'handle the situation where we pass single object with expect and use array handler and it is wrong'
:code: |
test()
{
POINT_T pt = {1, 2};
POINT_T ex = {1, 3};
bar_ExpectAndReturn(&pt);
foo_ExpectWithArray(&ex, 1);
function_a();
}
- :pass: TRUE
:should: 'handle the situation where we pass multiple objects with expect and use array handler'
:code: |
test()
{
POINT_T pt[] = {{1, 2}, {3, 4}, {5, 6}};
POINT_T ex[] = {{1, 2}, {3, 4}, {5, 6}};
bar_ExpectAndReturn(pt);
foo_ExpectWithArray(ex, 3);
function_a();
}
- :pass: FALSE
:should: 'handle the situation where we pass multiple objects with expect and use array handler and it is wrong at end'
:code: |
test()
{
POINT_T pt[] = {{1, 2}, {3, 4}, {5, 6}};
POINT_T ex[] = {{1, 2}, {3, 4}, {5, 9}};
bar_ExpectAndReturn(pt);
foo_ExpectWithArray(ex, 3);
function_a();
}
- :pass: TRUE
:should: 'handle the situation where we pass single array element with expect'
:code: |
test()
{
POINT_T pt = {1, 2};
POINT_T ex = {1, 2};
bar_ExpectAndReturn(&pt);
fooa_Expect(&ex);
function_b();
}
- :pass: TRUE
:should: 'handle standard c string as null terminated and not do crappy memory compares of a byte, passing'
:code: |
test()
{
const char* retval = "This is a\0 silly string";
bars_ExpectAndReturn((char*)retval);
foos_Expect("This is a\0 wacky string");
function_c();
}
- :pass: FALSE
:should: 'handle standard c string as null terminated and not do crappy memory compares of a byte, finding failures'
:code: |
test()
{
const char* retval = "This is a silly string";
bars_ExpectAndReturn((char*)retval);
foos_Expect("This is a wacky string");
function_c();
}
- :pass: TRUE
:should: 'handle creating array expects when we have mixed arguments for single object'
:code: |
test()
{
int expect_list[] = { 1, 9 };
no_pointers_Expect(1, "silly");
mixed_ExpectAndReturn(6, expect_list, 7, 13);
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: FALSE
:should: 'handle creating array expects when we have mixed arguments and handle failures for single object'
:code: |
test()
{
int expect_list[] = { 9, 1 };
no_pointers_Expect(1, "silly");
mixed_ExpectAndReturn(6, expect_list, 7, 13);
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: TRUE
:should: 'handle creating array expects when we have mixed arguments for multiple objects'
:code: |
test()
{
int expect_list[] = { 1, 2, 3, 4, 6 };
no_pointers_Expect(1, "silly");
mixed_ExpectWithArrayAndReturn(6, expect_list, 4, 7, 13);
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: FALSE
:should: 'handle creating array expects when we have mixed arguments and handle failures for multiple objects'
:code: |
test()
{
int expect_list[] = { 1, 2, 3, 4, 6 };
no_pointers_Expect(1, "silly");
mixed_ExpectWithArrayAndReturn(6, expect_list, 5, 7, 13);
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: TRUE
:should: 'handle an exception being caught'
:code: |
test()
{
const char* retval = "This is a\0 silly string";
bars_ExpectAndReturn((char*)retval);
foos_ExpectAndThrow("This is a\0 wacky string", 55);
foos_Expect("err");
function_c();
}
- :pass: FALSE
:should: 'handle an exception being caught but still catch following errors'
:code: |
test()
{
const char* retval = "This is a\0 silly string";
bars_ExpectAndReturn((char*)retval);
foos_ExpectAndThrow("This is a\0 wacky string", 55);
foos_Expect("wrong error");
function_c();
}
- :pass: FALSE
:should: 'fail strict ordering problems even though we would otherwise have passed'
:code: |
test()
{
int expect_list[] = { 1, 2, 3, 4, 6 };
mixed_ExpectWithArrayAndReturn(6, expect_list, 4, 7, 13);
no_pointers_Expect(1, "silly");
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: TRUE
:should: 'that we can properly ignore last function but the other will work properly'
:code: |
test()
{
int expect_list[] = { 1, 2, 3, 4, 6 };
mixed_ExpectWithArrayAndReturn(6, expect_list, 4, 7, 13);
no_pointers_Ignore();
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: TRUE
:should: 'that we can properly ignore first function but the other will work properly'
:code: |
test()
{
mixed_IgnoreAndReturn(13);
no_pointers_Expect(1, "silly");
TEST_ASSERT_EQUAL(13, function_d());
}
- :pass: TRUE
:should: 'that we just have to ignore a call once because we are not counting calls'
:code: |
test()
{
foos_Ignore();
function_e();
}
- :pass: TRUE
:should: 'that we can use a callback and an expect'
:code: |
test()
{
POINT_T pt1 = {2, 3};
POINT_T pt2 = {2, 3};
bar_ExpectAndReturn(&pt1);
foo_Expect(&pt2);
foo_StubWithCallback((CMOCK_foo_CALLBACK)my_foo_callback);
function_a();
}
- :pass: FALSE
:should: 'that we can fail even when using a callback if we want to expect call but did not and we are checking that'
:code: |
test()
{
POINT_T pt = {2, 3};
bar_ExpectAndReturn(&pt);
foo_StubWithCallback((CMOCK_foo_CALLBACK)my_foo_callback);
function_a();
}
- :pass: FALSE
:should: 'that we can fail even when using a callback if args are wrong and we are checking those'
:code: |
test()
{
POINT_T pt1 = {2, 3};
POINT_T pt2 = {1, 3};
bar_ExpectAndReturn(&pt1);
foo_Expect(&pt2);
foo_StubWithCallback((CMOCK_foo_CALLBACK)my_foo_callback);
function_a();
}
- :pass: FALSE
:should: 'that we can fail from the callback itself'
:code: |
test()
{
POINT_T pt = {3, 3};
bar_ExpectAndReturn(&pt);
foo_Expect(&pt);
foo_StubWithCallback((CMOCK_foo_CALLBACK)my_foo_callback);
function_a();
}
- :pass: TRUE
:should: 'that a callback return value overrides the one from ExpectAndReturn'
:code: |
test()
{
int b = 2;
POINT_T pt1 = {3, 4};
bar_ExpectAndReturn(&pt1);
mixed_StubWithCallback((CMOCK_mixed_CALLBACK)my_mixed_callback);
mixed_ExpectAndReturn(1,&b,3,100);
TEST_ASSERT_EQUAL(8, function_f());
}
- :pass: TRUE
:should: 'that a callback return value overrides the one from ExpectAndReturn AND ReturnThruPtr still works'
:code: |
test()
{
int b_in = 2;
int b_out = 3;
POINT_T pt1 = {3, 4};
bar_ExpectAndReturn(&pt1);
mixed_StubWithCallback((CMOCK_mixed_CALLBACK)my_mixed_callback);
mixed_ExpectAndReturn(1,&b_in,3,100);
mixed_ReturnThruPtr_b(&b_out);
TEST_ASSERT_EQUAL(9, function_f()); // (a=1, bin=2, c=pt.x=3, bout=3, sum=9)
}
- :pass: TRUE
:should: 'that a callback return value overrides the one from ExpectAnyArgs'
:code: |
test()
{
POINT_T pt1 = {5, 4};
bar_ExpectAndReturn(&pt1);
mixed_StubWithCallback((CMOCK_mixed_CALLBACK)my_mixed_callback);
mixed_ExpectAnyArgsAndReturn(100);
TEST_ASSERT_EQUAL(10, function_f()); // (a=1, bin=2, c=pt.x=5, bout=2, sum=10)
}
- :pass: TRUE
:should: 'that a callback return value overrides the one from ExpectAnyArgs AND ReturnThruPtr still works'
:code: |
test()
{
int b_out = 3;
POINT_T pt1 = {5, 4};
bar_ExpectAndReturn(&pt1);
mixed_StubWithCallback((CMOCK_mixed_CALLBACK)my_mixed_callback);
mixed_ExpectAnyArgsAndReturn(100);
mixed_ReturnThruPtr_b(&b_out);
TEST_ASSERT_EQUAL(11, function_f()); // (a=1, bin=2, c=pt.x=5, bout=3, sum=11)
}
...