65 lines
1.4 KiB
Plaintext
65 lines
1.4 KiB
Plaintext
__if_comp__ __C__ __simple_passthrough__ """
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#include <stdlib.h>
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"""
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/* we have a template versions so we don't have to cast (because we don't have that yet) */
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template <T> T* malloc(int size) {
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T* memPtr = 0;
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__if_comp__ __C__ {
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__simple_passthrough__ """
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memPtr = malloc(size);
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"""
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}
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return memPtr;
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}
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template <T> void free(T* memPtr) {
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__if_comp__ __C__ {
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__simple_passthrough__ """
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free(memPtr);
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"""
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}
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}
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template <T> int sizeof() {
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int result = 0;
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T testObj;
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__if_comp__ __C__ {
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__simple_passthrough__ """
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result = sizeof(testObj);
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"""
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}
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return result;
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}
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template <T> T* new(int count) {
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return malloc<T>( sizeof<T>() * count );
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}
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template <T> T* new() {
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return new<T>(1);
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}
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/* We specilize on the trait Destructable to decide on whether or not the destructor should be called */
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template <T> void delete(T* toDelete, int itemCount) {
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delete<T>(toDelete);
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}
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/* Calling this with itemCount = 0 allows you to delete destructable objects without calling their destructors. */
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template <T(Destructable)> void delete(T* toDelete, int itemCount) {
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for (int i = 0; i < itemCount; i++;)
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toDelete[i].destruct();
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delete<T>(toDelete);
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}
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/* We specilize on the trait Destructable to decide on whether or not the destructor should be called */
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template <T> void delete(T* toDelete) {
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free(toDelete);
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}
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template <T(Destructable)> void delete(T* toDelete) {
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toDelete->destruct();
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free(toDelete);
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}
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