DAG (Directed Acyclic Graph): различия между версиями
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'''DAG (Directed Acyclic Graph)''' | '''DAG (Directed Acyclic Graph)''' — ''[[бесконтурный орграф]].'' | ||
A '''directed acyclic graph''', also called a '''DAG''', | A '''[[directed acyclic graph]]''', also called a '''DAG''', is a ''[[directed graph]]'' without ''[[cycle|cycles]]'' | ||
is a ''directed graph''without ''cycles'' | |||
The reachability relation in a DAG forms a partial order, and any finite | The reachability relation in a DAG forms a partial order, and any finite partial order may be represented by a DAG using reachability. | ||
partial order may be represented by a DAG using reachability. | |||
DAGs may also be used to model expressions and basic blocks. | DAGs may also be used to model expressions and basic blocks. | ||
A DAG presentation for an expression identifies the common | A DAG presentation for an expression identifies the common subexpression of the expression. Like a ''[[syntax tree]]'', an '''[[expression dag]]''' has a [[node]] for every subexpression of the expression; an interior node represents an operator and its children represent its operands. The difference is that a node in a dag representing a common subexpression has more than one ''parent'', in a syntax tree, the common subexpression would be represented as a duplicated subtree. | ||
subexpression of the expression. Like a ''syntax tree'', | |||
an '''expression dag''' has a | |||
node for every subexpression of the expression; an interior node | |||
represents an operator and its children represent its operands. The | |||
difference is that a node in a dag representing a common subexpression | |||
has more than one ''parent'', in a syntax tree, the common subexpression | |||
would be represented as a duplicated subtree. | |||
DAG is a useful data structure for implementing transformations on basic | DAG is a useful data structure for implementing transformations on basic blocks. A DAG representation for a basic block gives a picture of how the value computed by each | ||
blocks. A DAG representation for a basic block gives a picture of how the value computed by each | |||
statement in a basic block is used in subsequent statements of a block. | statement in a basic block is used in subsequent statements of a block. | ||
A '''dag for a basic block''' is a directed acyclic graph with the | A '''[[dag for basic block|dag for a basic block]]''' is a directed acyclic graph with the following labels on nodes. | ||
following labels on nodes. | |||
(1) Leaves are labeled by unique identifiers, either variable names | (1) Leaves are labeled by unique identifiers, either variable names or constants. From the operator applied to a name, we determine whether | ||
or constants. From the operator applied to a name, we determine whether | the <math>\,l</math>-value or <math>\,r</math>-value of a name is needed; most leaves represent <math>\,r</math>-values. The leaves represent the initial values of names, and we subscript them with <math>\,0</math> to avoid confusion with labels denoting ''current'' values of names as in (3) below. | ||
the <math>l</math>-value or <math>r</math>-value of a name is needed; most leaves represent | |||
<math>r</math>-values. The leaves represent the initial values of names, and we | |||
subscript them with <math>0</math> to avoid confusion with labels denoting | |||
''current'' values of names as in (3) below. | |||
(2) Interior nodes are labeled by an operator symbol. | (2) Interior nodes are labeled by an operator symbol. | ||
(3) Nodes are also optionally given a sequence of identifiers for | (3) Nodes are also optionally given a sequence of identifiers for a label. The intention is that interior nodes represent computed values, | ||
a label. The intention is that interior nodes represent computed values, | |||
and the identifiers labeling a node are deemed to have that value. | and the identifiers labeling a node are deemed to have that value. | ||
(4) Certain nodes are designated output nodes. These are the nodes whose variables are | (4) Certain nodes are designated output nodes. These are the nodes whose variables are live on exit from the block; that is, their values may be used later, in another | ||
live on exit from the block; that is, their values may be used later, in another | |||
block of the flow graph. | block of the flow graph. | ||
It is important not to confuse dags with ''flow graphs''. Each node | It is important not to confuse dags with ''[[flow graph|flow graphs]]''. Each node of a flow graph can be represented by a dag, since each node of the | ||
of a flow graph can be represented by a dag, since each node of the | |||
flow graph stands for a basic block. | flow graph stands for a basic block. | ||
==Литература== | |||
*Евстигнеев В.А., Касьянов В.Н. Словарь по графам в информатике. — Новосибирск: Сибирское Научное Издательство, 2009. | |||
Текущая версия от 14:50, 26 февраля 2024
DAG (Directed Acyclic Graph) — бесконтурный орграф.
A directed acyclic graph, also called a DAG, is a directed graph without cycles
The reachability relation in a DAG forms a partial order, and any finite partial order may be represented by a DAG using reachability. DAGs may also be used to model expressions and basic blocks.
A DAG presentation for an expression identifies the common subexpression of the expression. Like a syntax tree, an expression dag has a node for every subexpression of the expression; an interior node represents an operator and its children represent its operands. The difference is that a node in a dag representing a common subexpression has more than one parent, in a syntax tree, the common subexpression would be represented as a duplicated subtree.
DAG is a useful data structure for implementing transformations on basic blocks. A DAG representation for a basic block gives a picture of how the value computed by each statement in a basic block is used in subsequent statements of a block. A dag for a basic block is a directed acyclic graph with the following labels on nodes.
(1) Leaves are labeled by unique identifiers, either variable names or constants. From the operator applied to a name, we determine whether
the [math]\displaystyle{ \,l }[/math]-value or [math]\displaystyle{ \,r }[/math]-value of a name is needed; most leaves represent [math]\displaystyle{ \,r }[/math]-values. The leaves represent the initial values of names, and we subscript them with [math]\displaystyle{ \,0 }[/math] to avoid confusion with labels denoting current values of names as in (3) below.
(2) Interior nodes are labeled by an operator symbol.
(3) Nodes are also optionally given a sequence of identifiers for a label. The intention is that interior nodes represent computed values, and the identifiers labeling a node are deemed to have that value.
(4) Certain nodes are designated output nodes. These are the nodes whose variables are live on exit from the block; that is, their values may be used later, in another block of the flow graph.
It is important not to confuse dags with flow graphs. Each node of a flow graph can be represented by a dag, since each node of the flow graph stands for a basic block.
Литература
- Евстигнеев В.А., Касьянов В.Н. Словарь по графам в информатике. — Новосибирск: Сибирское Научное Издательство, 2009.