Make lowest line of Splash image frames transparent to work around scaling issues
The Splash image is scaled. Sometimes, the lowest line is repeated on the top, which caused some weird lines to appear above big splashes (e.g. piano).
This has been done fully automated with a script. Only the alpha channel was changed. The color information is preserved.
#include <check.h>
#include <stdlib.h>
#include <stdio.h>
#include "check_check.h"
#include "../src/system.h"
void check_string(string255 str)
{
fail_unless(strlen(str.str) == str.len, "String internal inconsistency error");
}
static string255 make_string(const char* str)
{
string255 s;
s.len = strlen(str);
memcpy(s.str, str, s.len + 1);
return s;
}
START_TEST (test_copy)
{
string255 s = STRINIT("1234567");
string255 t;
t = fpcrtl_copy(s, 1, 1);
fail_if(strcmp(t.str, "1"), "Test copy fail 1");
t = fpcrtl_copy(s, 7, 1);
fail_if(strcmp(t.str, "7"), "Test copy fail 2");
t = fpcrtl_copy(s, 8, 1);
fail_if(t.len != 0, "Test copy fail 3");
t = fpcrtl_copy(s, 8, 100);
fail_if(t.len != 0, "Test copy fail 4");
check_string(t);
t = fpcrtl_copy(s, 0, 100);
fail_if(strcmp(t.str, "1234567"), "Test copy fail 5");
t = fpcrtl_copy(s, 0, 5);
fail_if(strcmp(t.str, "12345"), "Test copy fail 6");
t = fpcrtl_copy(s, 4, 100);
fail_if(strcmp(t.str, "4567"), "Test copy fail 7");
t = fpcrtl_copy(s, 4, 2);
fail_if(strcmp(t.str, "45"), "Test copy fail 8");
}END_TEST
START_TEST (test_delete)
{
string255 s = STRINIT("1234567");
string255 s2 = STRINIT("1234567");
string255 s3 = STRINIT("1234567");
fpcrtl_delete(s, 0, 10);
fail_if(strcmp(s.str, "1234567"), "delete(\"1234567\", 0, 10)");
check_string(s);
fpcrtl_delete(s, 1, 1);
fail_if(strcmp(s.str, "234567"), "delete(\"1234567\", 1, 1)");
check_string(s);
fpcrtl_delete(s, 1, 100);
fail_if(strcmp(s.str, ""), "delete(\"234567\", 1, 100)");
check_string(s);
fpcrtl_delete(s2, 3, 2);
fail_if(strcmp(s2.str, "12567"), "delete(\"1234567\", 3, 2)");
check_string(s2);
fpcrtl_delete(s3, 3, 100);
fail_if(strcmp(s3.str, "12"), "delete(\"1234567\", 3, 100)");
check_string(s3);
}
END_TEST
START_TEST (test_FloatToStr)
{
double s = 1.2345;
string255 t = fpcrtl_floatToStr(s);
printf("-----Entering test floatToStr-----\n");
printf("FloatToStr(%f) = %s\n", s, t.str);
printf("-----Leaving test floatToStr-----\n");
}
END_TEST
START_TEST (test_random)
{
fpcrtl_randomize();
printf("-----Entering test random-----\n");
printf("random(5000) = %d\n", fpcrtl_random(5000));
printf("random(1) = %d\n", fpcrtl_random(1));
printf("random(2) = %d\n", fpcrtl_random(2));
printf("-----Leaving test random-----\n");
}
END_TEST
START_TEST (test_posS)
{
string255 substr1 = STRINIT("123");
string255 str1 = STRINIT("12345");
string255 substr2 = STRINIT("45");
string255 str2 = STRINIT("12345");
string255 substr3 = STRINIT("");
string255 str3 = STRINIT("12345");
string255 substr4 = STRINIT("123");
string255 str4 = STRINIT("");
string255 substr5 = STRINIT("123");
string255 str5 = STRINIT("456");
fail_unless(fpcrtl_posS(substr1, str1) == 1, "pos(123, 12345)");
fail_unless(fpcrtl_posS(substr2, str2) == 4, "pos(45, 12345)");
fail_unless(fpcrtl_posS(substr3, str3) == 0, "pos(, 12345)");
fail_unless(fpcrtl_posS(substr4, str4) == 0, "pos(123, )");
fail_unless(fpcrtl_posS(substr5, str5) == 0, "pos(123, 456)");
}
END_TEST
START_TEST (test_trunc)
{
fail_unless(fpcrtl_trunc(123.456) == 123, "trunc(123.456)");
fail_unless(fpcrtl_trunc(-123.456) == -123, "trunc(-123.456)");
fail_unless(fpcrtl_trunc(12.3456) == 12, "trunc(12.3456)");
fail_unless(fpcrtl_trunc(-12.3456) == -12, "trunc(-12.3456)");
fail_unless(fpcrtl_trunc(0.3) == 0, "trunc(0.3)");
fail_unless(fpcrtl_trunc(0.5) == 0, "trunc(0.5)");
fail_unless(fpcrtl_trunc(99.9999999) == 99, "trunc(99.9999999)");
fail_unless(fpcrtl_trunc(0x01000000.0) == 0x01000000, "trunc(0x01000000.0)");
fail_unless(fpcrtl_trunc(0x01000001.0) == 0x01000001, "trunc(0x01000001.0)");
fail_unless(fpcrtl_trunc(0x02000000.0) == 0x02000000, "trunc(0x02000000.0)");
fail_unless(fpcrtl_trunc(0x04000000.0) == 0x04000000, "trunc(0x04000000.0)");
fail_unless(fpcrtl_trunc(0x08000000.0) == 0x08000000, "trunc(0x08000000.0)");
fail_unless(fpcrtl_trunc(0x10000000.0) == 0x10000000, "trunc(0x10000000.0)");
fail_unless(fpcrtl_trunc(0x10000001.0) == 0x10000001, "trunc(0x10000001.0)");
fail_unless(fpcrtl_trunc(0x20000000.0) == 0x20000000, "trunc(0x20000000.0)");
fail_unless(fpcrtl_trunc(0x40000000.0) == 0x40000000, "trunc(0x40000000.0)");
fail_unless(fpcrtl_trunc(0x80000000.0) == 0x80000000, "trunc(0x80000000.0)");
fail_unless(fpcrtl_trunc(0xF0000000.0) == 0xF0000000, "trunc(0xF0000000.0)");
fail_unless(fpcrtl_trunc(0xF0000001.0) == 0xF0000001, "trunc(0xF0000001.0)");
fail_unless(fpcrtl_trunc(0x01010101.0) == 0x01010101, "trunc(0x01010101.0)");
fail_unless(fpcrtl_trunc(0xFFFFFFFF.0) == 0xFFFFFFFF, "trunc(0xFFFFFFFF.0)");
fail_unless(fpcrtl_trunc(0x8943FE39.0) == 0x8943FE39, "trunc(0x01000000.0)");
}
END_TEST
START_TEST (test_odd)
{
fail_unless(fpcrtl_odd(123) != 0, "odd(123)");
fail_unless(fpcrtl_odd(124) == 0, "odd(124)");
fail_unless(fpcrtl_odd(0) == 0, "odd(0)");
fail_unless(fpcrtl_odd(-1) != 0, "odd(-1)");
fail_unless(fpcrtl_odd(-2) == 0, "odd(-2)");
}
END_TEST
START_TEST (test_sqr)
{
fail_unless(fpcrtl_sqr(0) == 0, "sqr(0)");
fail_unless(fpcrtl_sqr(5) == 25, "sqr(5)");
fail_unless(fpcrtl_sqr(-5) == 25, "sqr(-5)");
}
END_TEST
START_TEST (test_lowercase)
{
string255 s1 = STRINIT("");
string255 s2 = STRINIT("a");
string255 s3 = STRINIT("abc");
string255 t;
t = fpcrtl_lowerCase(make_string(""));
fail_if(strcmp(t.str, s1.str), "lowerCase(\"\")");
t = fpcrtl_lowerCase(make_string("a"));
fail_if(strcmp(t.str, s2.str), "lowerCase(\"a\")");
t = fpcrtl_lowerCase(make_string("A"));
fail_if(strcmp(t.str, s2.str), "lowerCase(\"A\")");
t = fpcrtl_lowerCase(make_string("AbC"));
fail_if(strcmp(t.str, s3.str), "lowerCase(\"AbC\")");
t = fpcrtl_lowerCase(make_string("abc"));
fail_if(strcmp(t.str, s3.str), "lowerCase(\"abc\")");
}
END_TEST
START_TEST (test_str)
{
int8_t a1 = -8;
uint8_t a2 = 8;
int16_t a3 = -13;
uint16_t a4 = 13;
int32_t a5 = -19;
uint32_t a6 = 22;
int64_t a7 = -199999999999999;
uint64_t a8 = 200000000000000;
float a9 = 12345.6789;
double a10 = -9876.54321;
string255 s;
printf("-----Entering test str-----\n");
fpcrtl_str(a1, s);
printf("%d == %s\n", a1, s.str);
fpcrtl_str(a2, s);
printf("%u == %s\n", a2, s.str);
fpcrtl_str(a3, s);
printf("%d == %s\n", a3, s.str);
fpcrtl_str(a4, s);
printf("%u == %s\n", a4, s.str);
fpcrtl_str(a5, s);
printf("%d == %s\n", a5, s.str);
fpcrtl_str(a6, s);
printf("%u == %s\n", a6, s.str);
fpcrtl_str(a7, s);
printf("%lld == %s\n", a7, s.str);
fpcrtl_str(a8, s);
printf("%llu == %s\n", a8, s.str);
fpcrtl_str(a9, s);
printf("%f == %s\n", a9, s.str);
fpcrtl_str(a10, s);
printf("%f == %s\n", a10, s.str);
printf("-----Leaving test str------\n");
}
END_TEST
Suite* system_suite(void)
{
Suite *s = suite_create("system");
TCase *tc_core = tcase_create("Core");
tcase_add_test(tc_core, test_copy);
tcase_add_test(tc_core, test_FloatToStr);
tcase_add_test(tc_core, test_random);
tcase_add_test(tc_core, test_posS);
tcase_add_test(tc_core, test_trunc);
tcase_add_test(tc_core, test_delete);
tcase_add_test(tc_core, test_odd);
tcase_add_test(tc_core, test_sqr);
tcase_add_test(tc_core, test_lowercase);
tcase_add_test(tc_core, test_str);
suite_add_tcase(s, tc_core);
return s;
}