MySQL 8.4.2
Source Code Documentation
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The type for a possible transition from one state to another while holding at least a given set of latches. More...
#include <ut0stateful_latching_rules.h>
Public Member Functions | |
edge_t (node_t from, std::initializer_list< int > &&idxs, node_t to) | |
Creates a description of one of allowed state transitions from given state to another while holding given latches. More... | |
Public Attributes | |
node_t | m_from |
The old state from which the transition starts. More... | |
latches_set_t | m_latches |
The required subset of latches for this particular transition. More... | |
node_t | m_to |
The new state from to which the transition leads. More... | |
The type for a possible transition from one state to another while holding at least a given set of latches.
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inline |
Creates a description of one of allowed state transitions from given state to another while holding given latches.
For example {BUF_IO_READ, {0, 2}, BUF_IO_NONE} says a if a thread holds latches 0 and 2 then it can transition from BUF_IO_READ to BUF_IO_NONE.
[in] | from | The old state from which the transition starts |
[in] | idxs | The list of integers in range <0,LATCHES_COUNT) used to construct set of latches for this edge. |
[in] | to | The new state from to which the transition leads. |
node_t ut::Stateful_latching_rules< Node, LATCHES_COUNT >::edge_t::m_from |
The old state from which the transition starts.
latches_set_t ut::Stateful_latching_rules< Node, LATCHES_COUNT >::edge_t::m_latches |
The required subset of latches for this particular transition.
Note that there might be several edges for the same from->to pair, which means that a thread can pick any of them for which it has the required latches.
node_t ut::Stateful_latching_rules< Node, LATCHES_COUNT >::edge_t::m_to |
The new state from to which the transition leads.