Difference between revisions of "Exec Lists"
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A list is the simplest dynamic data structure. An array is even simplier, but it is not dynamic. Adding a single item to an array requires reallocation of memory and copying the whole old contents, similarly for removing. Inserting and removing elements to a list is very fast operation and its computational costs do not increase with number of items. Because of this, list is the basic structure used in ''exec.library'', the MorphOS kernel. One could say the Exec is built on lists. Lists are also used through all the system to manage processes, windows, screens, devices, DOS volumes, fonts, libraries and more. Of course lists are also used by applications to manage dynamic data. Many more sophisticated data structures are built on lists. For all these reasons understanding lists and their MorphOS flavour is essential for every programmer. | A list is the simplest dynamic data structure. An array is even simplier, but it is not dynamic. Adding a single item to an array requires reallocation of memory and copying the whole old contents, similarly for removing. Inserting and removing elements to a list is very fast operation and its computational costs do not increase with number of items. Because of this, list is the basic structure used in ''exec.library'', the MorphOS kernel. One could say the Exec is built on lists. Lists are also used through all the system to manage processes, windows, screens, devices, DOS volumes, fonts, libraries and more. Of course lists are also used by applications to manage dynamic data. Many more sophisticated data structures are built on lists. For all these reasons understanding lists and their MorphOS flavour is essential for every programmer. | ||
| − | Lists may be divided to intrusive and nonintrusive ones. An intrusive list is one requiring that every list item contains a part called a node. The node is then used for linking items into list. A nonintrusive list creates nodes itself. Both kinds have their advantages. Exec lists are intrusive. Why? For a nonintrusive list adding an item means allocating memory for its node. Exec lists are often used at really low levels of the system, like interrupt handling, process scheduler or input/output hardware devices. Calling memory allocator from there is unacceptable. Also error handling would become a nightmare (every memory allocation can fail...). In some parts of system lists also have to be extremely fast. Memory allocation is a complex operation and can't be expected to finish in a few processor cycles. Of course on higher levels of the system, intrusiveness has more disadvantages than advantages. For example an item of intrusive list cannot be added to more than one list. Then high level components (for example MUI List class) may be nonintrusive ones. | + | Lists may be divided to intrusive and nonintrusive ones. An intrusive list is one requiring that every list item contains a part called a node. The node is then used for linking items into list. A nonintrusive list creates nodes itself. Both kinds have their advantages. Exec lists are intrusive. Why? For a nonintrusive list adding an item means allocating memory for its node. Exec lists are often used at really low levels of the system, like interrupt handling, process scheduler or input/output hardware devices. Calling memory allocator from there is unacceptable. Also error handling would become a nightmare (every memory allocation can fail...). In some parts of the system lists also have to be extremely fast. Memory allocation is a complex operation and can't be expected to finish in a few processor cycles. Of course on higher levels of the system, intrusiveness has more disadvantages than advantages. For example an item of intrusive list cannot be added to more than one list. Then high level components (for example MUI List class) may be nonintrusive ones. |
=From a Plain List to Exec List= | =From a Plain List to Exec List= | ||
Revision as of 12:02, 27 October 2011
Grzegorz Kraszewski
Contents
Introduction
A list is the simplest dynamic data structure. An array is even simplier, but it is not dynamic. Adding a single item to an array requires reallocation of memory and copying the whole old contents, similarly for removing. Inserting and removing elements to a list is very fast operation and its computational costs do not increase with number of items. Because of this, list is the basic structure used in exec.library, the MorphOS kernel. One could say the Exec is built on lists. Lists are also used through all the system to manage processes, windows, screens, devices, DOS volumes, fonts, libraries and more. Of course lists are also used by applications to manage dynamic data. Many more sophisticated data structures are built on lists. For all these reasons understanding lists and their MorphOS flavour is essential for every programmer.
Lists may be divided to intrusive and nonintrusive ones. An intrusive list is one requiring that every list item contains a part called a node. The node is then used for linking items into list. A nonintrusive list creates nodes itself. Both kinds have their advantages. Exec lists are intrusive. Why? For a nonintrusive list adding an item means allocating memory for its node. Exec lists are often used at really low levels of the system, like interrupt handling, process scheduler or input/output hardware devices. Calling memory allocator from there is unacceptable. Also error handling would become a nightmare (every memory allocation can fail...). In some parts of the system lists also have to be extremely fast. Memory allocation is a complex operation and can't be expected to finish in a few processor cycles. Of course on higher levels of the system, intrusiveness has more disadvantages than advantages. For example an item of intrusive list cannot be added to more than one list. Then high level components (for example MUI List class) may be nonintrusive ones.