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#include "prb.h"
typedef struct {
S32 first;
S32 second;
B32 flags;
} SomeStruct;
typedef struct SLLNode {
S32 val;
struct SLLNode *next;
} SLLNode;
typedef struct DLLNode {
S32 val;
struct DLLNode *next;
struct DLLNode *prev;
} DLLNode;
int main(void)
{
F32 verts[] = {
1.0f, 0.0f, 0.0f,
0.0f, 1.0f, 0.0f,
0.0f, 0.0f, 1.0f
};
ASSERT(v3a(1.0f).y);
printf("OFFSETOF(SomeStruct, flags): %ld\n\n", OFFSETOF(SomeStruct, flags));
F32 range_min = 0.0f,
range_max = 1.0f,
clamped_number = 1.5f,
another_clamped_number = -0.2f;
printf("CLAMPBOT(%f, %f): %f\n", range_min,
another_clamped_number, CLAMPBOT(another_clamped_number, range_min));
printf("CLAMPTOP(%f, %f): %f\n", range_max,
clamped_number, CLAMPTOP(clamped_number, range_max));
printf("CLAMP(%f, %f, %f): %f\n", range_min, clamped_number, range_max,
CLAMP(range_min, clamped_number, range_max));
printf("CLAMP(%f, %f, %f): %f\n\n", range_min, another_clamped_number, range_max,
CLAMP(range_min, another_clamped_number, range_max));
F32 swap_test_first = 10.0f,
swap_test_second = 20.0f;
printf("Before SWAP: swap_test_first = %f, swap_test_second = %f\n",
swap_test_first, swap_test_second);
SWAP(F32, swap_test_first, swap_test_second);
printf("After SWAP: swap_test_first = %f, swap_test_second = %f\n\n",
swap_test_first, swap_test_second);
SomeStruct some_stuct = { 10, 20, 30 };
printf("SomeStruct: first: %d, second: %d, flags: %d\n",
some_stuct.first, some_stuct.second, some_stuct.flags);
MEM0(&some_stuct, sizeof(SomeStruct));
printf("After MEM0(&some_stuct, sizeof(SomeStruct)):\n");
printf("some_stuct: first: %d, second: %d, flags: %d\n\n",
some_stuct.first, some_stuct.second, some_stuct.flags);
some_stuct = (SomeStruct){ 10, 20, 30 };
printf("some_stuct: first: %d, second: %d, flags: %d\n",
some_stuct.first, some_stuct.second, some_stuct.flags);
MEM0STRUCT(&some_stuct);
printf("After MEM0STRUCT(&some_stuct):\n");
printf("some_stuct: first: %d, second: %d, flags: %d\n\n",
some_stuct.first, some_stuct.second, some_stuct.flags);
S32 dynamic_array_length = 10;
U64 dynamic_array_size = dynamic_array_length*sizeof(S32);
F32 *dynamic_array_first = malloc(dynamic_array_size);
F32 *dynamic_array_second = malloc(dynamic_array_size);
printf("first dynamic array:\n");
for (S32 i = 0; i < dynamic_array_length; ++i) {
F32 *element = dynamic_array_first+i;
*element = i+420;
printf("%f%c", *element, (i == dynamic_array_length-1) ? '\n' : ' ');
}
printf("second dynamic array:\n");
for (S32 i = 0; i < dynamic_array_length; ++i) {
F32 *element = dynamic_array_second+i;
printf("%f%c", *element, (i == dynamic_array_length-1) ? '\n' : ' ');
}
MEMCPY(dynamic_array_second, dynamic_array_first, dynamic_array_size);
printf("After MEMCPY(dynamic_array_second, dynamic_array_first, dynamic_array_size):\n");
printf("second dynamic array:\n");
for (S32 i = 0; i < dynamic_array_length; ++i) {
F32 *element = dynamic_array_second+i;
printf("%f%c", *element, (i == dynamic_array_length-1) ? '\n' : ' ');
}
S32 memory_match = MEMMATCH(dynamic_array_first, dynamic_array_second, dynamic_array_size);
printf("And MEMMATCH(dynamic_array_first, dynamic_array_second, dynamic_array_size): %d\n\n", memory_match);
free(dynamic_array_first);
free(dynamic_array_second);
printf("Linked Lists:\n");
printf("Singly linked list: ");
S32 list_length = 5;
U64 list_size = list_length*sizeof(SLLNode);
SLLNode *sllist = malloc(list_size);
SLLNode *sllfirst = 0;
SLLNode *slllast = 0;
for (S32 i = 0; i < list_length; ++i) {
SLLNode *new = sllist+i;
new->val = i;
SLLPUSH(sllfirst, slllast, new);
}
for (SLLNode *node = sllfirst; node; node = node->next)
printf("%d%s", node->val, ((node->next) ? " -> " : "\n"));
SLLPOP(sllfirst, slllast);
printf("After SLLPOP(sllfirst, slllast): ");
for (SLLNode *node = sllfirst; node; node = node->next)
printf("%d%s", node->val, ((node->next) ? " -> " : "\n"));
free(sllist);
printf("Doubly linked list: ");
list_length = 8;
list_size = list_length*sizeof(DLLNode);
DLLNode *dllist = malloc(list_size);
DLLNode *dllfirst = 0;
DLLNode *dlllast = 0;
for (S32 i = 0; i < list_length; ++i) {
DLLNode *new = dllist+i;
new->val = i;
DLLPUSHBACK(dllfirst, dlllast, new);
}
for (DLLNode *node = dllfirst; node; node = node->next)
printf("%d%s", node->val, ((node->next) ? " -> " : "\n"));
printf("Remove odd numbers: ");
for (DLLNode *node = dllfirst; node; node = node->next)
if (node->val % 2 == 1)
DLLREMOVE(dllfirst, dlllast, node);
for (DLLNode *node = dllfirst; node; node = node->next)
printf("%d%s", node->val, ((node->next) ? " -> " : "\n"));
free(dllist);
printf("\n");
printf("I'm pretty sure the vectors are fine.\nAt least for the last few months :)\n\n");
printf("Matrices:\n");
printf("Identity:\n");
MAT4 m = MAT4_IDENTITY;
printmat4(m);
m = scalemat4(m, v3a(10.0f));
m = translmat4(m, v3a(1.0f));
m = translmat4(m, v3(0.0f, 68.0f, 0.0f));
printmat4(m);
printf("Determinant: %f\n", detmat4(m));
printf("Transpose:\n"); printmat4(transpmat4(m));
printf("mat4rotate(MAT4_IDENTITY, v3(0.0f, 45.0f, 0.0f)):\n");
printmat4(rotatemat4(MAT4_IDENTITY, v3(0.0f, 45.0f, 0.0f)));
sys_printf("Example of using sys_printf without args\n");
sys_printf("And with some of number : %x : <- like that or string : %s : for example\n", 69, "yeah");
printf("Using Arenas:\n");
Arena *a;
U8 *df,
*ds;
Arena *tmpa;
a = alloc_arena(10);
df = push_arena(a, 5);
memset(df, 5, 5);
ds = push_arena(a, 5);
memset(ds, 10, 5);
tmpa = alloc_arena(0);
flsprint(FLSLIT("|"));
for (S32 i = 0; i < 10; i++)
flsprint(flspushf(tmpa, "%x%s", df[i], ((i+1) % 5 == 0) ? "|" : " "));
flsprint(FLSLIT("\n"));
release_arena(tmpa);
release_arena(a);
a = alloc_arena(0);
SLLNode *first = 0;
SLLNode *last = 0;
S32 node_count = 10;
for (S32 i = 0; i < node_count; ++i) {
SLLNode *new = push_arena(a, sizeof(SLLNode));
new->val = i;
SLLPUSH(first, last, new);
}
for (SLLNode *node = first; node; node = node->next)
printf("%d%s", node->val, ((node->next) ? " -> " : "\n"));
release_arena(a);
a = alloc_arena(sizeof(verts));
S32 verts_count = ARRCNT(verts);
F32 *dynamic_verts = push_arena(a, sizeof(verts));
MEM0(dynamic_verts, verts_count*sizeof(F32));
for (S32 i = 0; i < verts_count; ++i) {
F32 *vert = dynamic_verts+i;
printf("%f%c", *vert, (i == verts_count-1) ? '\n' : ' ');
}
release_arena(a);
printf("\n");
Arena *str_arena = alloc_arena(0);
printf("Strings:\n");
char *cstr = "This is a C str\n";
FLS str = flsfromcstr(cstr);
str = flschopstart(str, 10);
cstr = flstocstr(a, str);
printf("%s", cstr);
flsprint(str);
FLS choped_str = flschopend(str, 3);
flsprint(choped_str);
printf("\n");
FLSList *list = flslist(str_arena);
flslistpush(str_arena, list, str, 0);
flslistpush(str_arena, list, flsfromcstr("test"), 0);
flslistpush(str_arena, list, flsfromcstr("and this is also a test\n"), 0);
flslistpush(str_arena, list, flsfromcstr("Kinda works!"), 1);
printf("FLSList: ");
flslistprint(list);
release_arena(str_arena);
flslistprint(list);
str_arena = alloc_arena(KB(10));
U32 memory_size = 512;
U32 count = memory_size/sizeof(S32);
S32 *some = push_arena(str_arena, memory_size);
printf("str_arena(size): %ld\nMemory:\n", str_arena->cap);
for (S32 i = 0; i < count; i++) {
S32 *e = some+i;
*e = 69;
printf("%d: %d%c", i, *e, ((i == count-1) ? '\n' : ' '));
}
printf("Memory used: %lu\n", str_arena->used);
printf("Remaining memory: %lu\n",
str_arena->cap-str_arena->used);
pop_arena(str_arena, memory_size);
printf("After arena pop\n");
printf("Memory used: %lu\n", str_arena->used);
printf("Remaining memory: %lu\n",
str_arena->cap-str_arena->used);
printf("some ptr is %s\n", some ? "not null" : "null");
printf("str_arena(size): %lu\nMemory:\n", str_arena->cap);
FLS new_str = flspushf(str_arena, "Test of the formatted string: %d\n", 69);
flsprint(new_str);
list = flslist(str_arena);
flslistpushf(str_arena, list, 0, "This is a list %d", 34);
flslistpushf(str_arena, list, 0, " of formatted strings: %d", 35);
flslistpushf(str_arena, list, 1, "And you can push to the start");
/* TODO(pryazha): Think about simpler way of using string literals.
* Maybe you don't need to, I dunno */
flslistpushf(str_arena, list, 1, "The most interesting part is that you can include the whole string like that: %*s\n",
FLSEXP(FLSLIT("Absolutely random string with absolutely random content (or not).")));
flslistprint(list);
release_arena(str_arena);
a = alloc_arena(MB(1));
flsprint(FLSLIT("build.sh content:\n"));
FLS file_content = fls_read_entire_file(a, FLSLIT("build.sh"));
if (file_content.p)
flsprint(file_content);
else
flsprint(FLSLIT("failed to read build.sh\n"));
release_arena(a);
return(0);
}
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