factor/vm/generic_arrays.hpp

namespace factor
{

template<typename T> cell array_capacity(T *array)
{
#ifdef FACTOR_DEBUG
	assert(array->h.hi_tag() == T::type_number);
#endif
	return array->capacity >> TAG_BITS;
}

template <typename T> cell array_size(cell capacity)
{
	return sizeof(T) + capacity * T::element_size;
}

template <typename T> cell array_size(T *array)
{
	return array_size<T>(array_capacity(array));
}

template <typename TYPE> TYPE *factor_vm::allot_array_internal(cell capacity)
{
	TYPE *array = allot<TYPE>(array_size<TYPE>(capacity));
	array->capacity = tag_fixnum(capacity);
	return array;
}

template <typename TYPE> bool factor_vm::reallot_array_in_place_p(TYPE *array, cell capacity)
{
	return in_zone(&nursery,array) && capacity <= array_capacity(array);
}

template <typename TYPE> TYPE *factor_vm::reallot_array(TYPE *array_, cell capacity)
{
	gc_root<TYPE> array(array_,this);

	if(reallot_array_in_place_p(array.untagged(),capacity))
	{
		array->capacity = tag_fixnum(capacity);
		return array.untagged();
	}
	else
	{
		cell to_copy = array_capacity(array.untagged());
		if(capacity < to_copy)
			to_copy = capacity;
			
		TYPE *new_array = allot_array_internal<TYPE>(capacity);
		
		memcpy(new_array + 1,array.untagged() + 1,to_copy * TYPE::element_size);
		memset((char *)(new_array + 1) + to_copy * TYPE::element_size,
		       0,(capacity - to_copy) * TYPE::element_size);
		
		return new_array;
	}
}

}
Use C++ namespaces 2009-05-04 02:46:13 -04:00			`namespace factor`
			`{`

The great type renaming 2009-05-04 05:50:24 -04:00			`template<typename T> cell array_capacity(T *array)`
Clean up VM's array code 2009-05-02 05:43:58 -04:00			`{`
			`#ifdef FACTOR_DEBUG`
The great type renaming 2009-05-04 05:50:24 -04:00			`assert(array->h.hi_tag() == T::type_number);`
Clean up VM's array code 2009-05-02 05:43:58 -04:00			`#endif`
			`return array->capacity >> TAG_BITS;`
			`}`

The great type renaming 2009-05-04 05:50:24 -04:00			`template <typename T> cell array_size(cell capacity)`
Clean up VM's array code 2009-05-02 05:43:58 -04:00			`{`
			`return sizeof(T) + capacity * T::element_size;`
			`}`

The great type renaming 2009-05-04 05:50:24 -04:00			`template <typename T> cell array_size(T *array)`
Clean up VM's array code 2009-05-02 05:43:58 -04:00			`{`
			`return array_size<T>(array_capacity(array));`
			`}`

inlineimpl.hpp is toast 2009-09-29 14:53:10 -04:00			`template <typename TYPE> TYPE *factor_vm::allot_array_internal(cell capacity)`
			`{`
			`TYPE *array = allot<TYPE>(array_size<TYPE>(capacity));`
			`array->capacity = tag_fixnum(capacity);`
			`return array;`
			`}`

			`template <typename TYPE> bool factor_vm::reallot_array_in_place_p(TYPE *array, cell capacity)`
			`{`
			`return in_zone(&nursery,array) && capacity <= array_capacity(array);`
			`}`

			`template <typename TYPE> TYPE factor_vm::reallot_array(TYPE array_, cell capacity)`
			`{`
			`gc_root<TYPE> array(array_,this);`

			`if(reallot_array_in_place_p(array.untagged(),capacity))`
			`{`
			`array->capacity = tag_fixnum(capacity);`
			`return array.untagged();`
			`}`
			`else`
			`{`
			`cell to_copy = array_capacity(array.untagged());`
			`if(capacity < to_copy)`
			`to_copy = capacity;`

			`TYPE *new_array = allot_array_internal<TYPE>(capacity);`

			`memcpy(new_array + 1,array.untagged() + 1,to_copy * TYPE::element_size);`
			`memset((char )(new_array + 1) + to_copy TYPE::element_size,`
			`0,(capacity - to_copy) * TYPE::element_size);`

			`return new_array;`
			`}`
			`}`

Use C++ namespaces 2009-05-04 02:46:13 -04:00			`}`