mirror of
https://github.com/fish-shell/fish-shell
synced 2024-12-27 05:13:10 +00:00
631 lines
13 KiB
C++
631 lines
13 KiB
C++
/** \file event.c
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Functions for handling event triggers
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*/
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#include "config.h"
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#include <stdlib.h>
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#include <stdio.h>
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#include <wchar.h>
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#include <unistd.h>
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#include <termios.h>
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#include <signal.h>
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#include <string.h>
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#include <algorithm>
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#include "fallback.h"
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#include "util.h"
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#include "wutil.h"
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#include "function.h"
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#include "proc.h"
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#include "parser.h"
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#include "common.h"
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#include "event.h"
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#include "signal.h"
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/**
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Number of signals that can be queued before an overflow occurs
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*/
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#define SIG_UNHANDLED_MAX 64
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/**
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This struct contains a list of generated signals waiting to be
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dispatched
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*/
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typedef struct
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{
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/**
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Number of delivered signals
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*/
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int count;
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/**
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Whether signals have been skipped
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*/
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int overflow;
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/**
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Array of signal events
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*/
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int signal[SIG_UNHANDLED_MAX];
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}
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signal_list_t;
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/**
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The signal event list. Actually two separate lists. One which is
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active, which is the one that new events is written to. The inactive
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one contains the events that are currently beeing performed.
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*/
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static signal_list_t sig_list[]={{0,0},{0,0}};
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/**
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The index of sig_list that is the list of signals currently written to
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*/
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static int active_list=0;
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typedef std::vector<event_t *> event_list_t;
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/**
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List of event handlers
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*/
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static event_list_t events;
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/**
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List of event handlers that should be removed
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*/
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static event_list_t killme;
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/**
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List of events that have been sent but have not yet been delivered because they are blocked.
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*/
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static event_list_t blocked;
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/**
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Tests if one event instance matches the definition of a event
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class. If both the class and the instance name a function,
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they must name the same function.
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*/
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static int event_match( const event_t *classv, const event_t *instance )
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{
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if( ! classv->function_name.empty() && ! instance->function_name.empty() )
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{
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if( classv->function_name != instance->function_name )
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return 0;
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}
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if( classv->type == EVENT_ANY )
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return 1;
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if( classv->type != instance->type )
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return 0;
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switch( classv->type )
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{
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case EVENT_SIGNAL:
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if( classv->param1.signal == EVENT_ANY_SIGNAL )
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return 1;
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return classv->param1.signal == instance->param1.signal;
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case EVENT_VARIABLE:
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return instance->str_param1 == classv->str_param1;
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case EVENT_EXIT:
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if( classv->param1.pid == EVENT_ANY_PID )
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return 1;
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return classv->param1.pid == instance->param1.pid;
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case EVENT_JOB_ID:
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return classv->param1.job_id == instance->param1.job_id;
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case EVENT_GENERIC:
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return instance->str_param1 == classv->str_param1;
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}
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/**
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This should never be reached
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*/
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return 0;
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}
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/**
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Create an identical copy of an event. Use deep copying, i.e. make
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duplicates of any strings used as well.
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*/
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static event_t *event_copy( event_t *event, int copy_arguments )
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{
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event_t *e = new event_t(*event);
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e->arguments.reset(new wcstring_list_t);
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if( copy_arguments && event->arguments.get() != NULL )
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{
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*(e->arguments) = *(event->arguments);
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}
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return e;
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}
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/**
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Test if specified event is blocked
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*/
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static int event_is_blocked( event_t *e )
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{
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block_t *block;
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parser_t &parser = parser_t::principal_parser();
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for( block = parser.current_block; block; block = block->outer )
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{
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if (event_block_list_blocks_type(block->event_blocks, e->type))
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return true;
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}
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return event_block_list_blocks_type(parser.global_event_blocks, e->type);
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}
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wcstring event_get_desc( const event_t *e )
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{
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CHECK( e, 0 );
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wcstring result;
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switch( e->type )
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{
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case EVENT_SIGNAL:
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result = format_string(_(L"signal handler for %ls (%ls)"), sig2wcs(e->param1.signal ), signal_get_desc( e->param1.signal ));
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break;
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case EVENT_VARIABLE:
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result = format_string(_(L"handler for variable '%ls'"), e->str_param1.c_str() );
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break;
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case EVENT_EXIT:
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if( e->param1.pid > 0 )
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{
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result = format_string(_(L"exit handler for process %d"), e->param1.pid );
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}
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else
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{
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job_t *j = job_get_from_pid( -e->param1.pid );
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if( j )
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result = format_string(_(L"exit handler for job %d, '%ls'"), j->job_id, j->command_cstr() );
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else
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result = format_string(_(L"exit handler for job with process group %d"), -e->param1.pid );
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}
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break;
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case EVENT_JOB_ID:
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{
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job_t *j = job_get( e->param1.job_id );
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if( j )
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result = format_string(_(L"exit handler for job %d, '%ls'"), j->job_id, j->command_cstr() );
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else
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result = format_string(_(L"exit handler for job with job id %d"), j->job_id );
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break;
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}
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case EVENT_GENERIC:
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result = format_string(_(L"handler for generic event '%ls'"), e->str_param1.c_str() );
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break;
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default:
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result = format_string(_(L"Unknown event type") );
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break;
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}
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return result;
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}
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#if 0
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static void show_all_handlers(void) {
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puts("event handlers:");
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for (event_list_t::const_iterator iter = events.begin(); iter != events.end(); iter++) {
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const event_t *foo = *iter;
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wcstring tmp = event_get_desc(foo);
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printf(" handler now %ls\n", tmp.c_str());
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}
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}
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#endif
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void event_add_handler( event_t *event )
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{
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event_t *e;
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CHECK( event, );
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e = event_copy( event, 0 );
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if( e->type == EVENT_SIGNAL )
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{
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signal_handle( e->param1.signal, 1 );
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}
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events.push_back(e);
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}
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void event_remove( event_t *criterion )
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{
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size_t i;
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event_list_t new_list;
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CHECK( criterion, );
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/*
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Because of concurrency issues (env_remove could remove an event
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that is currently being executed), env_remove does not actually
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free any events - instead it simply moves all events that should
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be removed from the event list to the killme list, and the ones
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that shouldn't be killed to new_list, and then drops the empty
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events-list.
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*/
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if( events.empty() )
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return;
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for( i=0; i<events.size(); i++ )
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{
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event_t *n = events.at(i);
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if( event_match( criterion, n ) )
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{
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killme.push_back(n);
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/*
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If this event was a signal handler and no other handler handles
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the specified signal type, do not handle that type of signal any
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more.
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*/
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if( n->type == EVENT_SIGNAL )
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{
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event_t e = event_t::signal_event(n->param1.signal);
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if( event_get( &e, 0 ) == 1 )
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{
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signal_handle( e.param1.signal, 0 );
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}
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}
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}
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else
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{
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new_list.push_back(n);
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}
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}
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events.swap(new_list);
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}
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int event_get( event_t *criterion, std::vector<event_t *> *out )
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{
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size_t i;
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int found = 0;
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if( events.empty() )
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return 0;
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CHECK( criterion, 0 );
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for( i=0; i<events.size(); i++ )
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{
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event_t *n = events.at(i);
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if( event_match(criterion, n ) )
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{
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found++;
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if( out )
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out->push_back(n);
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}
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}
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return found;
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}
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/**
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Free all events in the kill list
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*/
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static void event_free_kills()
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{
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for_each(killme.begin(), killme.end(), event_free);
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killme.resize(0);
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}
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/**
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Test if the specified event is waiting to be killed
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*/
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static int event_is_killed( event_t *e )
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{
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return std::find(killme.begin(), killme.end(), e) != killme.end();
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}
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/**
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Perform the specified event. Since almost all event firings will
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not be matched by even a single event handler, we make sure to
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optimize the 'no matches' path. This means that nothing is
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allocated/initialized unless needed.
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*/
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static void event_fire_internal( const event_t *event )
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{
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size_t i, j;
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event_list_t fire;
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/*
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First we free all events that have been removed
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*/
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event_free_kills();
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if( events.empty() )
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return;
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/*
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Then we iterate over all events, adding events that should be
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fired to a second list. We need to do this in a separate step
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since an event handler might call event_remove or
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event_add_handler, which will change the contents of the \c
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events list.
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*/
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for( i=0; i<events.size(); i++ )
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{
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event_t *criterion = events.at(i);
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/*
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Check if this event is a match
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*/
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if(event_match( criterion, event ) )
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{
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fire.push_back(criterion);
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}
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}
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/*
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No matches. Time to return.
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*/
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if( fire.empty() )
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return;
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/*
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Iterate over our list of matching events
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*/
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for( i=0; i<fire.size(); i++ )
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{
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event_t *criterion = fire.at(i);
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int prev_status;
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/*
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Check if this event has been removed, if so, dont fire it
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*/
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if( event_is_killed( criterion ) )
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continue;
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/*
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Fire event
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*/
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wcstring buffer = criterion->function_name;
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if (event->arguments.get())
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{
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for( j=0; j< event->arguments->size(); j++ )
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{
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wcstring arg_esc = escape_string( event->arguments->at(j), 1 );
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buffer += L" ";
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buffer += arg_esc;
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}
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}
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// debug( 1, L"Event handler fires command '%ls'", (wchar_t *)b->buff );
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/*
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Event handlers are not part of the main flow of code, so
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they are marked as non-interactive
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*/
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proc_push_interactive(0);
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prev_status = proc_get_last_status();
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parser_t &parser = parser_t::principal_parser();
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parser.push_block( EVENT );
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parser.current_block->state1<const event_t *>() = event;
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parser.eval( buffer.c_str(), 0, TOP );
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parser.pop_block();
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proc_pop_interactive();
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proc_set_last_status( prev_status );
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}
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/*
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Free killed events
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*/
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event_free_kills();
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}
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/**
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Handle all pending signal events
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*/
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static void event_fire_delayed()
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{
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size_t i;
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/*
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If is_event is one, we are running the event-handler non-recursively.
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When the event handler has called a piece of code that triggers
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another event, we do not want to fire delayed events because of
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concurrency problems.
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*/
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if( ! blocked.empty() && is_event==1)
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{
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event_list_t new_blocked;
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for( i=0; i<blocked.size(); i++ )
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{
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event_t *e = blocked.at(i);
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if( event_is_blocked( e ) )
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{
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new_blocked.push_back(e);
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}
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else
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{
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event_fire_internal( e );
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event_free( e );
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}
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}
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blocked.swap(new_blocked);
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}
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while( sig_list[active_list].count > 0 )
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{
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signal_list_t *lst;
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/*
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Switch signal lists
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*/
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sig_list[1-active_list].count=0;
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sig_list[1-active_list].overflow=0;
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active_list=1-active_list;
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/*
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Set up
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*/
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event_t e = event_t::signal_event(0);
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e.arguments.reset(new wcstring_list_t(1)); //one element
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lst = &sig_list[1-active_list];
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if( lst->overflow )
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{
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debug( 0, _( L"Signal list overflow. Signals have been ignored." ) );
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}
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/*
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Send all signals in our private list
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*/
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for( i=0; i<(size_t)lst->count; i++ )
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{
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e.param1.signal = lst->signal[i];
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e.arguments->at(0) = sig2wcs( e.param1.signal );
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if( event_is_blocked( &e ) )
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{
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blocked.push_back(event_copy(&e, 1));
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}
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else
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{
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event_fire_internal( &e );
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}
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}
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e.arguments.reset(NULL);
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}
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}
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void event_fire( event_t *event )
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{
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is_event++;
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if( event && (event->type == EVENT_SIGNAL) )
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{
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/*
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This means we are in a signal handler. We must be very
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careful not do do anything that could cause a memory
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allocation or something else that might be bad when in a
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signal handler.
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*/
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if( sig_list[active_list].count < SIG_UNHANDLED_MAX )
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sig_list[active_list].signal[sig_list[active_list].count++]=event->param1.signal;
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else
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sig_list[active_list].overflow=1;
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}
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else
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{
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/*
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Fire events triggered by signals
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*/
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event_fire_delayed();
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if( event )
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{
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if( event_is_blocked( event ) )
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{
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blocked.push_back(event_copy(event, 1));
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}
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else
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{
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event_fire_internal( event );
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}
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}
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}
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is_event--;
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}
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void event_init()
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{
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}
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void event_destroy()
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{
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for_each(events.begin(), events.end(), event_free);
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events.resize(0);
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for_each(killme.begin(), killme.end(), event_free);
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killme.resize(0);
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}
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void event_free( event_t *e )
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{
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CHECK( e, );
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delete e;
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}
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void event_fire_generic_internal(const wchar_t *name, ...)
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{
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va_list va;
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wchar_t *arg;
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CHECK( name, );
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event_t ev(EVENT_GENERIC);
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ev.str_param1 = name;
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ev.arguments.reset(new wcstring_list_t);
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va_start( va, name );
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while( (arg=va_arg(va, wchar_t *) )!= 0 )
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{
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ev.arguments->push_back(arg);
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}
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va_end( va );
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event_fire( &ev );
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ev.arguments.reset(NULL);
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}
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event_t event_t::signal_event(int sig) {
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event_t event(EVENT_SIGNAL);
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event.param1.signal = sig;
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return event;
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}
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event_t event_t::variable_event(const wcstring &str) {
|
|
event_t event(EVENT_VARIABLE);
|
|
event.str_param1 = str;
|
|
return event;
|
|
}
|
|
|
|
event_t event_t::generic_event(const wcstring &str) {
|
|
event_t event(EVENT_GENERIC);
|
|
event.str_param1 = str;
|
|
return event;
|
|
}
|
|
|
|
event_t::event_t(const event_t &x) :
|
|
type(x.type),
|
|
param1(x.param1),
|
|
str_param1(x.str_param1),
|
|
function_name(x.function_name)
|
|
{
|
|
const wcstring_list_t *ptr = x.arguments.get();
|
|
if (ptr)
|
|
arguments.reset(new wcstring_list_t(*ptr));
|
|
}
|