PINE LIBRARY
BinaryInsertionSort
Library "BinaryInsertionSort"
Library containing functions which can help create sorted array based on binary insertion sort.
This sorting will be quicker than array.sort function if the sorting needs to be done on every bar and the size of the array is comparatively big.
method binary_search_basic(sortedArray, item, order)
binary_search_basic - finds the closest index of the value
Namespace types: array<float>
Parameters:
sortedArray (array<float>): array<float> which is assumed to be sorted in the requested order
item (float): float item which needs to be searched in the sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item can be inserted into sorted array
method binary_search_basic(sortedArray, item, order)
binary_search_basic - finds the closest index of the value
Namespace types: array<int>
Parameters:
sortedArray (array<int>): array<int> which is assumed to be sorted in the requested order
item (int): int item which needs to be searched in the sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item can be inserted into sorted array
method binary_insertion_sort(sortedArray, item, order)
binary insertion sort - inserts item into sorted array while maintaining sort order
Namespace types: array<float>
Parameters:
sortedArray (array<float>): array<float> which is assumed to be sorted in the requested order
item (float): float item which needs to be inserted into sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item is inserted into sorted array
method binary_insertion_sort(sortedArray, item, order)
binary insertion sort - inserts item into sorted array while maintaining sort order
Namespace types: array<int>
Parameters:
sortedArray (array<int>): array<int> which is assumed to be sorted in the requested order
item (int): int item which needs to be inserted into sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item is inserted into sorted array
update_sort_indices(sortIndices, newItemIndex)
adds the sort index of new item added to sorted array and also updates existing sort indices.
Parameters:
sortIndices (array<int>): array<int> containing sort indices of an array.
newItemIndex (int): sort index of new item added to sorted array
Returns: void
get_array_of_series(item, order)
Converts series into array and sorted array.
Parameters:
item (float): float series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndex of last item]
get_array_of_series(item, order)
Converts series into array and sorted array.
Parameters:
item (int): int series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndex of last item]
get_sorted_arrays(item, order)
Converts series into array and sorted array. Also calculates the sort order of the value array
Parameters:
item (float): float|int series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndices]
get_sorted_arrays(item, order)
Converts series into array and sorted array. Also calculates the sort order of the value array
Parameters:
item (int): int series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndices]
Library containing functions which can help create sorted array based on binary insertion sort.
This sorting will be quicker than array.sort function if the sorting needs to be done on every bar and the size of the array is comparatively big.
method binary_search_basic(sortedArray, item, order)
binary_search_basic - finds the closest index of the value
Namespace types: array<float>
Parameters:
sortedArray (array<float>): array<float> which is assumed to be sorted in the requested order
item (float): float item which needs to be searched in the sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item can be inserted into sorted array
method binary_search_basic(sortedArray, item, order)
binary_search_basic - finds the closest index of the value
Namespace types: array<int>
Parameters:
sortedArray (array<int>): array<int> which is assumed to be sorted in the requested order
item (int): int item which needs to be searched in the sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item can be inserted into sorted array
method binary_insertion_sort(sortedArray, item, order)
binary insertion sort - inserts item into sorted array while maintaining sort order
Namespace types: array<float>
Parameters:
sortedArray (array<float>): array<float> which is assumed to be sorted in the requested order
item (float): float item which needs to be inserted into sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item is inserted into sorted array
method binary_insertion_sort(sortedArray, item, order)
binary insertion sort - inserts item into sorted array while maintaining sort order
Namespace types: array<int>
Parameters:
sortedArray (array<int>): array<int> which is assumed to be sorted in the requested order
item (int): int item which needs to be inserted into sorted array
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: int index at which the item is inserted into sorted array
update_sort_indices(sortIndices, newItemIndex)
adds the sort index of new item added to sorted array and also updates existing sort indices.
Parameters:
sortIndices (array<int>): array<int> containing sort indices of an array.
newItemIndex (int): sort index of new item added to sorted array
Returns: void
get_array_of_series(item, order)
Converts series into array and sorted array.
Parameters:
item (float): float series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndex of last item]
get_array_of_series(item, order)
Converts series into array and sorted array.
Parameters:
item (int): int series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndex of last item]
get_sorted_arrays(item, order)
Converts series into array and sorted array. Also calculates the sort order of the value array
Parameters:
item (float): float|int series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndices]
get_sorted_arrays(item, order)
Converts series into array and sorted array. Also calculates the sort order of the value array
Parameters:
item (int): int series
order (int): Sort order - positive number means ascending order whereas negative number represents descending order
Returns: [valueArray, sortedArray, sortIndices]
Biblioteca Pine
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La información y las publicaciones que ofrecemos, no implican ni constituyen un asesoramiento financiero, ni de inversión, trading o cualquier otro tipo de consejo o recomendación emitida o respaldada por TradingView. Puede obtener información adicional en las Condiciones de uso.
Biblioteca Pine
Siguiendo fielmente el espíritu de TradingView, el autor ha publicado este código Pine como una biblioteca de código, permitiendo que otros programadores de Pine en nuestra comunidad puedan volver a utilizarlo. ¡Un brindis por el autor! Puede utilizar esta biblioteca de forma privada o en otras publicaciones de código abierto, pero tenga en cuenta que la reutilización de este código en publicaciones se rige por las Normas internas.
Trial - trendoscope.io/trial
Subscribe - trendoscope.io/pricing
Blog - docs.trendoscope.io
Subscribe - trendoscope.io/pricing
Blog - docs.trendoscope.io
Exención de responsabilidad
La información y las publicaciones que ofrecemos, no implican ni constituyen un asesoramiento financiero, ni de inversión, trading o cualquier otro tipo de consejo o recomendación emitida o respaldada por TradingView. Puede obtener información adicional en las Condiciones de uso.