Part5. Concurrency 1. Channel 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 type hchan struct { qcount uint // total data in the queue dataqsiz uint // size of the circular queue buf unsafe.Pointer // points to an array of dataqsiz elements elemsize uint16 closed uint32 elemtype *_type // element type sendx uint // send index recvx uint // receive index recvq waitq // list of recv waiters sendq waitq // list of send waiters // lock protects all fields in hchan, as well as several // fields in sudogs blocked on this channel. // // Do not change another G's status while holding this lock // (in particular, do not ready a G), as this can deadlock // with stack shrinking. lock mutex } type waitq struct { first *sudog last *sudog } // sudog represents a g in a wait list, such as for sending/receiving // on a channel. // sudog is necessary because the g ↔ synchronization object relation // is many-to-many. A g can be on many wait lists, so there may be // many sudogs for one g; and many gs may be waiting on the same // synchronization object, so there may be many sudogs for one object. // 如果目标 Channel 没有被关闭并且已经有处于读等待的 Goroutine,那么 runtime.chansend 会从接收队列 recvq 中取出最先陷入等待的 Goroutine 并直接向它发送数据:
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