source: libcfa/src/concurrency/monitor.hfa@ fa2e183

//
// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
//
// The contents of this file are covered under the licence agreement in the
// file "LICENCE" distributed with Cforall.
//
// monitor --
//
// Author           : Thierry Delisle
// Created On       : Thd Feb 23 12:27:26 2017
// Last Modified By : Peter A. Buhr
// Last Modified On : Wed Dec  4 07:55:32 2019
// Update Count     : 11
//

#pragma once

#include <stddef.h>

#include <assert.h>
#include "invoke.h"
#include "stdlib.hfa"

trait is_monitor(T &) {
        monitor$ * get_monitor( T & );
        void ^?{}( T & mutex );
};

static inline void ?{}(monitor$ & this) with( this ) {
        lock{};
        entry_queue{};
        signal_stack{};
        owner         = 0p;
        recursion     = 0;
        mask.accepted = 0p;
        mask.data     = 0p;
        mask.size     = 0;
        dtor_node     = 0p;
}

static inline void ^?{}(monitor$ & ) {}

struct monitor_guard_t {
        monitor$ **     m;
        __lock_size_t           count;
        __monitor_group_t prev;
};

void ?{}( monitor_guard_t & this, monitor$ ** m, __lock_size_t count, void (*func)() );
void ?{}( monitor_guard_t & this, monitor$ ** m, __lock_size_t count );
void ^?{}( monitor_guard_t & this );

struct monitor_dtor_guard_t {
        monitor$ *    m;
        __monitor_group_t prev;
        bool join;
};

void ?{}( monitor_dtor_guard_t & this, monitor$ ** m, void (*func)(), bool join );
void ^?{}( monitor_dtor_guard_t & this );

/*
static inline forall( T & | sized(T) | { void ^?{}( T & mutex ); } )
void delete( T * th ) {
        if(th) ^(*th){};
        free( th );
}
*/

static inline forall( T & | sized(T) | { void ^?{}( T & mutex ); } )
void adelete( T arr[] ) {
        if ( arr ) {                                                                            // ignore null
                size_t dim = malloc_size( arr ) / sizeof( T );
                for ( int i = dim - 1; i >= 0; i -= 1 ) {               // reverse allocation order, must be unsigned
                        ^(arr[i]){};                                                            // run destructor
                } // for
                free( arr );
        } // if
} // adelete

//-----------------------------------------------------------------------------
// Internal scheduling

struct __condition_criterion_t {
        // Whether or not the criterion is met (True if met)
        bool ready;

        // The monitor this criterion concerns
        monitor$ * target;

        // The parent node to which this criterion belongs
        struct __condition_node_t * owner;

        // Intrusive linked list Next field
        __condition_criterion_t * next;
};

static inline __condition_criterion_t * & get_next( __condition_criterion_t & this ) {
        return this.next;
}

struct __condition_node_t {
        // Thread that needs to be woken when all criteria are met
        thread$ * waiting_thread;

        // Array of criteria (Criterions are contiguous in memory)
        __condition_criterion_t * criteria;

        // Number of criterions in the criteria
        __lock_size_t count;

        // Intrusive linked list Next field
        __condition_node_t * next;

        // Custom user info accessible before signalling
        uintptr_t user_info;
};

static inline __condition_node_t * & get_next( __condition_node_t & this ) {
        return this.next;
}

// void ?{}(__condition_node_t & this, thread$ * waiting_thread, __lock_size_t count, uintptr_t user_info );
// void ?{}(__condition_criterion_t & this );
// void ?{}(__condition_criterion_t & this, monitor$ * target, __condition_node_t * owner );

struct condition {
        // Link list which contains the blocked threads as-well as the information needed to unblock them
        __queue_t(__condition_node_t) blocked;

        // Array of monitor pointers (Monitors are NOT contiguous in memory)
        monitor$ ** monitors;

        // Number of monitors in the array
        __lock_size_t monitor_count;
};

static inline void ?{}( condition & this ) {
        this.monitors = 0p;
        this.monitor_count = 0;
}

static inline void ^?{}( condition & this ) {
        free( this.monitors );
}

              void wait        ( condition & this, uintptr_t user_info = 0 );
static inline bool is_empty    ( condition & this ) { return this.blocked.head == 1p; }
              bool signal      ( condition & this );
              bool signal_block( condition & this );
static inline bool signal_all  ( condition & this ) { bool ret = false; while(!is_empty(this)) { ret = signal(this) || ret; } return ret; }
         uintptr_t front       ( condition & this );

//-----------------------------------------------------------------------------
// External scheduling

struct __acceptable_t {
        inline struct __monitor_group_t;
        bool is_dtor;
};

void __waitfor_internal( const __waitfor_mask_t & mask, int duration );

// lock and unlock routines for mutex statements to use
void lock( monitor$ * this );
void unlock( monitor$ * this );

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