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1 /* Definitions for the new event model;
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2 created 16-jul-91 by Jamie Zawinski
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3 Copyright (C) 1991, 1992, 1993 Free Software Foundation, Inc.
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4 Copyright (C) 1995, 1996 Ben Wing.
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5
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6 This file is part of XEmacs.
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7
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8 XEmacs is free software; you can redistribute it and/or modify it
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9 under the terms of the GNU General Public License as published by the
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10 Free Software Foundation; either version 2, or (at your option) any
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11 later version.
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12
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13 XEmacs is distributed in the hope that it will be useful, but WITHOUT
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14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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16 for more details.
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17
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18 You should have received a copy of the GNU General Public License
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19 along with XEmacs; see the file COPYING. If not, write to
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20 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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21 Boston, MA 02111-1307, USA. */
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22
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23 /* Synched up with: Not in FSF. */
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24
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398
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25 #ifndef INCLUDED_events_h_
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26 #define INCLUDED_events_h_
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0
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27
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28 #include "systime.h"
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29
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2
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30 /* There is one object called an event_stream. This object contains
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31 callback functions for doing the window-system-dependent operations
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32 that XEmacs requires.
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0
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33
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34 If XEmacs is compiled with support for X11 and the X Toolkit, then this
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35 event_stream structure will contain functions that can cope with input
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36 on XEmacs windows on multiple displays, as well as input from dumb tty
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37 frames.
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38
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39 If it is desired to have XEmacs able to open frames on the displays of
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40 multiple heterogeneous machines, X11 and SunView, or X11 and NeXT, for
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41 example, then it will be necessary to construct an event_stream structure
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42 that can cope with the given types. Currently, the only implemented
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43 event_streams are for dumb-ttys, and for X11 plus dumb-ttys,
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44 and for mswindows.
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45
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46 To implement this for one window system is relatively simple.
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47 To implement this for multiple window systems is trickier and may
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48 not be possible in all situations, but it's been done for X and TTY.
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49
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50 Note that these callbacks are *NOT* console methods; that's because
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51 the routines are not specific to a particular console type but must
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52 be able to simultaneously cope with all allowable console types.
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53
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54 The slots of the event_stream structure:
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55
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2
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56 next_event_cb A function which fills in an XEmacs_event structure
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57 with the next event available. If there is no event
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58 available, then this should block.
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59
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60 IMPORTANT: timer events and especially process
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61 events *must not* be returned if there are
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62 events of other types available; otherwise you
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63 can end up with an infinite loop in Fdiscard_input().
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64
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65 event_pending_cb A function which says whether there are events to be
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66 read. If called with an argument of 0, then this
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67 should say whether calling the next_event_cb will
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68 block. If called with an argument of 1, then this
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69 should say whether there are user-generated events
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70 pending (that is, keypresses or mouse-clicks). This
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71 is used for redisplay optimization, among other
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72 things. On dumb ttys, these two results are the
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73 same, but under a window system, they are not.
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74
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75 If this function is not sure whether there are events
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76 to be read, it *must* return 0. Otherwise various
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77 undesirable effects will occur, such as redisplay
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78 not occurring until the next event occurs.
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79
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80 handle_magic_event_cb XEmacs calls this with an event structure which
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81 contains window-system dependent information that
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82 XEmacs doesn't need to know about, but which must
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83 happen in order. If the next_event_cb never returns
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84 an event of type "magic", this will never be used.
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85
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86 add_timeout_cb Called with an EMACS_TIME, the absolute time at
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87 which a wakeup event should be generated; and a
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88 void *, which is an arbitrary value that will be
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89 returned in the timeout event. The timeouts
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90 generated by this function should be one-shots:
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91 they fire once and then disappear. This callback
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92 should return an int id-number which uniquely
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93 identifies this wakeup. If an implementation
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94 doesn't have microseconds or millisecond
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95 granularity, it should round up to the closest
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96 value it can deal with.
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97
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98 remove_timeout_cb Called with an int, the id number of a wakeup to
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99 discard. This id number must have been returned by
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100 the add_timeout_cb. If the given wakeup has
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101 already expired, this should do nothing.
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102
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103 select_process_cb These callbacks tell the underlying implementation to
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104 unselect_process_cb add or remove a file descriptor from the list of fds
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105 which are polled for inferior-process input. When
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106 input becomes available on the given process
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107 connection, an event of type "process" should be
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108 generated.
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109
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110 select_console_cb These callbacks tell the underlying implementation
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111 unselect_console_cb to add or remove a console from the list of consoles
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112 which are polled for user-input.
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113
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114 select_device_cb These callbacks are used by Unixoid event loops
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115 unselect_device_cb (those that use select() and file descriptors and
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116 have a separate input fd per device).
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117
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263
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118 create_stream_pair_cb These callbacks are called by process code to
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119 delete_stream_pair_cb create and delete a pair of input and output lstreams
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120 which are used for subprocess I/O.
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263
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121
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122 quitp_cb A handler function called from the `QUIT' macro which
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123 should check whether the quit character has been
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124 typed. On systems with SIGIO, this will not be called
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125 unless the `sigio_happened' flag is true (it is set
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126 from the SIGIO handler).
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127
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128 XEmacs has its own event structures, which are distinct from the event
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129 structures used by X or any other window system. It is the job of the
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130 event_stream layer to translate to this format.
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131
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132 NOTE: #### All timestamps should be measured as milliseconds since XEmacs
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133 started. Currently many or most events have a 0 as their
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134 timestamp value, and for other timestamps, they are raw server
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135 timestamps. (The X protocol doesn't provide any easy way of
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136 translating between server time and real process time; yuck.)
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137
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138 Every event type has the following structures:
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139
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140 channel Where this event occurred on. This will be
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141 a frame, device, console, or nil, depending on the
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142 event type. It is important that an object of
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143 a more specific type than is actually generated
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144 is not substituted -- e.g. there should not be
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145 a frame inserted when a key-press event occurs,
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146 because events on dead channels are automatically
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147 ignored.
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148
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149 Specifically:
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150
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151 -- for button and mouse-motion events, channel
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152 will be a frame. (The translation to a window
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153 occurs later.)
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154 -- for keyboard events, channel will be a console.
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155 Note that fake keyboard events (generated
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156 by `character-to-event' or something that
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157 calls this, such as macros) need to have
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158 the selected console stored into them when
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159 the event is created. This is so that the
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160 correct console-local variables (e.g. the
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161 command builder) will get affected.
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162 -- for timer, process, magic-eval, and eval events,
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163 channel will be nil.
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288
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164 -- for misc-user events, channel will be a frame.
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165 -- for magic events, channel will be a frame
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166 (usually) or a device.
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167
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168 timestamp When this event occurred -- if not known, this
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169 is made up.
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170
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171 In addition, the following structures are specific to particular event
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172 types:
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173
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185
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174 key_press_event
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175 key What keysym this is; an integer or a symbol.
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176 If this is an integer, it will be in the printing
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177 ASCII range: >32 and <127.
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178 modifiers Bucky-bits on that key: control, meta, etc.
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179 For many keys, Shift is not a bit; that is implicit
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180 in the keyboard layout.
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181
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182 button_press_event
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183 button_release_event
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184 button What button went down or up.
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185 modifiers Bucky-bits on that button: shift, control, meta, etc.
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186 x, y Where it was at the button-state-change (in pixels).
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187
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188 pointer_motion_event
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189 x, y Where it was after it moved (in pixels).
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190 modifiers Bucky-bits down when the motion was detected.
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191 (Possibly not all window systems will provide this?)
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192
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193 process_event
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194 process the XEmacs "process" object in question
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195
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196 timeout_event
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197 interval_id The ID returned when the associated call to
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198 add_timeout_cb() was made
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199 ------ the rest of the fields are filled in by XEmacs -----
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200 id_number The XEmacs timeout ID for this timeout (more
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201 than one timeout event can have the same value
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202 here, since XEmacs timeouts, as opposed to
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203 add_timeout_cb() timeouts, can resignal
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204 themselves)
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205 function An elisp function to call when this timeout is
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206 processed.
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207 object The object passed to that function.
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208
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209 eval_event
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210 function An elisp function to call with this event object.
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211 internal_function An unexported function to call with this event
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212 object. This allows eval events to call internal
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213 functions. For a normal eval event, this field
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214 will always be 0.
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215 object Anything.
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216 This kind of event is used internally; sometimes the
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217 window system interface would like to inform XEmacs of
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218 some user action (such as focusing on another frame)
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219 but needs that to happen synchronously with the other
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220 user input, like keypresses. This is useful when
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221 events are reported through callbacks rather
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222 than in the standard event stream.
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223
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224 misc_user_event
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225 function An elisp function to call with this event object.
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226 internal_function Ignored.
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227 object Anything.
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282
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228 button What button went down or up.
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229 modifiers Bucky-bits on that button: shift, control, meta, etc.
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230 x, y Where it was at the button-state-change (in pixels).
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231 This is similar to an eval_event, except that it is
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232 generated by user actions: selections in the
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233 menubar, scrollbar actions, or drag and drop actions.
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234 It is a "command" event, like key and mouse presses
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235 (and unlike mouse motion, process output, and enter
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236 and leave window hooks). In many ways, eval_events
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237 are not the same as keypresses or misc_user_events.
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238 The button, modifiers, x, and y parts are only used
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239 by the XEmacs Drag'n'Drop system. Don't depend on their
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240 values for other types of misc_user_events.
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241
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242 magic_event
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243 No user-serviceable parts within. This is for things
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244 like KeymapNotify and ExposeRegion events and so on
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245 that XEmacs itself doesn't care about, but which it
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246 must do something with for proper interaction with
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247 the window system.
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248
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249 Magic_events are handled somewhat asynchronously, just
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250 like subprocess filters. However, occasionally a
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251 magic_event needs to be handled synchronously; in that
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252 case, the asynchronous handling of the magic_event will
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253 push an eval_event back onto the queue, which will be
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254 handled synchronously later. This is one of the
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255 reasons why eval_events exist; I'm not entirely happy
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256 with this aspect of this event model.
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257
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258 magic_eval_event
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259 This is like an eval event but its contents are
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260 not Lisp-accessible. This allows for "internal
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261 eval events" that call non-Lisp-accessible functions.
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262 Externally, a magic_eval_event just appears as
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263 a magic_event; the Lisp programmer need not know
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264 anything more.
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197
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265
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282
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266 */
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267
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263
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268 /*
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269 Stream pairs description
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270 ------------------------
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271
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272 Since there are many possible processes/event loop combinations, the event code
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380
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273 is responsible for creating an appropriate lstream type. The process
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263
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274 implementation does not care about that implementation.
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275
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276 The Create stream pair function is passed two void* values, which identify
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277 process-dependent 'handles'. The process implementation uses these handles
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278 to communicate with child processes. The function must be prepared to receive
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279 handle types of any process implementation. Since only one process
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263
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280 implementation exists in a particular XEmacs configuration, preprocessing
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398
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281 is a means of compiling in the support for the code which deals with particular
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263
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282 handle types.
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283
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284 For example, a unixoid type loop, which relies on file descriptors, may be
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285 asked to create a pair of streams by a unix-style process implementation.
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286 In this case, the handles passed are unix file descriptors, and the code
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287 may deal with these directly. Although, the same code may be used on Win32
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288 system with X-Windows. In this case, Win32 process implementation passes
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289 handles of type HANDLE, and the create_stream_pair function must call
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290 appropriate function to get file descriptors given HANDLEs, so that these
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291 descriptors may be passed to XtAddInput.
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292
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293 The handle given may have special denying value, in which case the
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294 corresponding lstream should not be created.
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295
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296 The return value of the function is a unique stream identifier. It is used
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297 by processes implementation, in its platform-independent part. There is
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263
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298 the get_process_from_usid function, which returns process object given its
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299 USID. The event stream is responsible for converting its internal handle
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300 type into USID.
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301
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302 Example is the TTY event stream. When a file descriptor signals input, the
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303 event loop must determine process to which the input is destined. Thus,
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304 the implementation uses process input stream file descriptor as USID, by
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305 simply casting the fd value to USID type.
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306
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307 There are two special USID values. One, USID_ERROR, indicates that the stream
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308 pair cannot be created. The second, USID_DONTHASH, indicates that streams are
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309 created, but the event stream does not wish to be able to find the process
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310 by its USID. Specifically, if an event stream implementation never calls
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272
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311 get_process_from_usid, this value should always be returned, to prevent
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312 accumulating useless information on USID to process relationship.
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313 */
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314
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315 /* typedef unsigned int USID; in lisp.h */
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316 #define USID_ERROR ((USID)-1)
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272
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317 #define USID_DONTHASH ((USID)0)
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263
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318
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319 �
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320 struct event_stream
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321 {
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322 int (*event_pending_p) (int);
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398
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323 void (*next_event_cb) (Lisp_Event *);
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324 void (*handle_magic_event_cb) (Lisp_Event *);
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0
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325 int (*add_timeout_cb) (EMACS_TIME);
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326 void (*remove_timeout_cb) (int);
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327 void (*select_console_cb) (struct console *);
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328 void (*unselect_console_cb) (struct console *);
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398
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329 void (*select_process_cb) (Lisp_Process *);
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330 void (*unselect_process_cb) (Lisp_Process *);
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0
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331 void (*quit_p_cb) (void);
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263
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332 USID (*create_stream_pair_cb) (void* /* inhandle*/, void* /*outhandle*/ ,
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333 Lisp_Object* /* instream */,
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334 Lisp_Object* /* outstream */,
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282
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335 int /* flags */);
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263
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336 USID (*delete_stream_pair_cb) (Lisp_Object /* instream */,
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337 Lisp_Object /* outstream */);
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0
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338 };
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339
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282
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340 /* Flags for create_stream_pair_cb() FLAGS parameter */
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341 #define STREAM_PTY_FLUSHING 0x0001
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342 #define STREAM_NETWORK_CONNECTION 0x0002
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343
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0
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344 extern struct event_stream *event_stream;
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345
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346 typedef enum emacs_event_type
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347 {
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348 empty_event,
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349 key_press_event,
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350 button_press_event,
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351 button_release_event,
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352 pointer_motion_event,
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353 process_event,
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354 timeout_event,
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355 magic_event,
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356 magic_eval_event,
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357 eval_event,
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358 misc_user_event,
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359 dead_event
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360 } emacs_event_type;
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361
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362 #define first_event_type empty_event
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363 #define last_event_type dead_event
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364
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365
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366 struct key_data
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367 {
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368 Lisp_Object keysym;
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369 unsigned char modifiers;
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370 };
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371
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372 struct button_data
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373 {
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374 int button;
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375 unsigned char modifiers;
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376 int x, y;
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377 };
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378
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379 struct motion_data
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380 {
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381 int x, y;
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382 unsigned char modifiers;
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383 };
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384
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385 struct process_data
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386 {
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387 Lisp_Object process;
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388 };
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389
|
|
|
390 struct timeout_data
|
|
|
391 {
|
|
|
392 int interval_id;
|
|
|
393 int id_number;
|
|
382
|
394 Lisp_Object function;
|
|
|
395 Lisp_Object object;
|
|
0
|
396 };
|
|
|
397
|
|
|
398 struct eval_data
|
|
|
399 {
|
|
|
400 Lisp_Object function;
|
|
|
401 Lisp_Object object;
|
|
|
402 };
|
|
|
403
|
|
282
|
404 struct misc_user_data
|
|
|
405 {
|
|
|
406 Lisp_Object function;
|
|
|
407 Lisp_Object object;
|
|
|
408 int button;
|
|
|
409 unsigned char modifiers;
|
|
|
410 int x, y;
|
|
|
411 };
|
|
|
412
|
|
0
|
413 struct magic_eval_data
|
|
|
414 {
|
|
|
415 void (*internal_function) (Lisp_Object);
|
|
|
416 Lisp_Object object;
|
|
|
417 };
|
|
|
418
|
|
|
419 #if defined (HAVE_X_WINDOWS) && defined(emacs)
|
|
|
420 # include <X11/Xlib.h>
|
|
|
421 #endif
|
|
|
422
|
|
|
423 union magic_data
|
|
|
424 {
|
|
209
|
425 #ifdef HAVE_TTY
|
|
|
426 char underlying_tty_event;
|
|
|
427 #endif
|
|
0
|
428 #ifdef HAVE_X_WINDOWS
|
|
209
|
429 XEvent underlying_x_event;
|
|
|
430 #endif
|
|
213
|
431 #ifdef HAVE_MS_WINDOWS
|
|
249
|
432 int underlying_mswindows_event;
|
|
0
|
433 #endif
|
|
|
434 };
|
|
|
435
|
|
398
|
436 struct Lisp_Timeout
|
|
|
437 {
|
|
|
438 struct lcrecord_header header;
|
|
|
439 int id; /* Id we use to identify the timeout over its lifetime */
|
|
|
440 int interval_id; /* Id for this particular interval; this may
|
|
|
441 be different each time the timeout is
|
|
|
442 signalled.*/
|
|
|
443 Lisp_Object function, object; /* Function and object associated
|
|
|
444 with timeout. */
|
|
|
445 EMACS_TIME next_signal_time; /* Absolute time when the timeout
|
|
|
446 is next going to be signalled. */
|
|
|
447 unsigned int resignal_msecs; /* How far after the next timeout
|
|
|
448 should the one after that
|
|
|
449 occur? */
|
|
|
450 };
|
|
|
451 typedef struct Lisp_Timeout Lisp_Timeout;
|
|
|
452
|
|
|
453 DECLARE_LRECORD (timeout, Lisp_Timeout);
|
|
|
454 #define XTIMEOUT(x) XRECORD (x, timeout, Lisp_Timeout)
|
|
|
455 #define XSETTIMEOUT(x, p) XSETRECORD (x, p, timeout)
|
|
|
456 #define TIMEOUTP(x) RECORDP (x, timeout)
|
|
|
457 #define CHECK_TIMEOUT(x) CHECK_RECORD (x, timeout)
|
|
|
458 #define CONCHECK_TIMEOUT(x) CONCHECK_RECORD (x, timeout)
|
|
|
459
|
|
0
|
460 struct Lisp_Event
|
|
|
461 {
|
|
|
462 /* header->next (aka XEVENT_NEXT ()) is used as follows:
|
|
|
463 - For dead events, this is the next dead one.
|
|
|
464 - For events on the command_event_queue, the next one on the queue.
|
|
|
465 - Likewise for events chained in the command builder.
|
|
|
466 - Otherwise it's Qnil.
|
|
|
467 */
|
|
|
468 struct lrecord_header lheader;
|
|
|
469 Lisp_Object next;
|
|
|
470 emacs_event_type event_type;
|
|
|
471 Lisp_Object channel;
|
|
|
472 unsigned int timestamp;
|
|
|
473 union
|
|
|
474 {
|
|
|
475 struct key_data key;
|
|
|
476 struct button_data button;
|
|
|
477 struct motion_data motion;
|
|
|
478 struct process_data process;
|
|
|
479 struct timeout_data timeout;
|
|
380
|
480 struct eval_data eval; /* misc_user_event no longer uses this */
|
|
282
|
481 struct misc_user_data misc; /* because it needs position information */
|
|
0
|
482 union magic_data magic;
|
|
|
483 struct magic_eval_data magic_eval;
|
|
|
484 } event;
|
|
|
485 };
|
|
|
486
|
|
398
|
487 DECLARE_LRECORD (event, Lisp_Event);
|
|
|
488 #define XEVENT(x) XRECORD (x, event, Lisp_Event)
|
|
0
|
489 #define XSETEVENT(x, p) XSETRECORD (x, p, event)
|
|
|
490 #define EVENTP(x) RECORDP (x, event)
|
|
|
491 #define CHECK_EVENT(x) CHECK_RECORD (x, event)
|
|
|
492 #define CONCHECK_EVENT(x) CONCHECK_RECORD (x, event)
|
|
|
493
|
|
|
494 DECLARE_LRECORD (command_builder, struct command_builder);
|
|
|
495
|
|
|
496 #define EVENT_CHANNEL(a) ((a)->channel)
|
|
|
497 #define EVENT_TYPE(a) ((a)->event_type)
|
|
|
498 #define XEVENT_TYPE(a) (XEVENT (a)->event_type)
|
|
|
499 #define EVENT_NEXT(a) ((a)->next)
|
|
|
500 #define XEVENT_NEXT(e) (XEVENT (e)->next)
|
|
|
501 #define XSET_EVENT_NEXT(e, n) do { (XEVENT (e)->next = (n)); } while (0)
|
|
|
502
|
|
|
503 #define EVENT_CHAIN_LOOP(event, chain) \
|
|
|
504 for (event = chain; !NILP (event); event = XEVENT_NEXT (event))
|
|
|
505
|
|
|
506 #define EVENT_LIVE_P(a) (EVENT_TYPE (a) != dead_event)
|
|
|
507
|
|
272
|
508 #define CHECK_LIVE_EVENT(x) do { \
|
|
|
509 CHECK_EVENT (x); \
|
|
|
510 if (! EVENT_LIVE_P (XEVENT (x))) \
|
|
|
511 dead_wrong_type_argument (Qevent_live_p, (x)); \
|
|
|
512 } while (0)
|
|
|
513 #define CONCHECK_LIVE_EVENT(x) do { \
|
|
|
514 CONCHECK_EVENT (x); \
|
|
|
515 if (! EVENT_LIVE_P (XEVENT (x))) \
|
|
|
516 x = wrong_type_argument (Qevent_live_p, (x)); \
|
|
|
517 } while (0)
|
|
0
|
518
|
|
|
519
|
|
272
|
520 EXFUN (Fcharacter_to_event, 4);
|
|
|
521 EXFUN (Fdeallocate_event, 1);
|
|
|
522 EXFUN (Fevent_glyph_extent, 1);
|
|
|
523 EXFUN (Fevent_modeline_position, 1);
|
|
|
524 EXFUN (Fevent_over_modeline_p, 1);
|
|
|
525 EXFUN (Fevent_over_toolbar_p, 1);
|
|
284
|
526 EXFUN (Fevent_over_vertical_divider_p, 1);
|
|
272
|
527 EXFUN (Fevent_point, 1);
|
|
|
528 EXFUN (Fevent_window, 1);
|
|
|
529 EXFUN (Fmake_event, 2);
|
|
|
530
|
|
|
531 extern Lisp_Object QKbackspace, QKdelete, QKescape, QKlinefeed, QKreturn;
|
|
|
532 extern Lisp_Object QKspace, QKtab, Qmouse_event_p, Vcharacter_set_property;
|
|
290
|
533 extern Lisp_Object Qcancel_mode_internal;
|
|
0
|
534
|
|
|
535 /* Note: under X Windows, MOD_ALT is generated by the Alt key if there are
|
|
|
536 both Alt and Meta keys. If there are no Meta keys, then Alt generates
|
|
|
537 MOD_META instead.
|
|
|
538 */
|
|
|
539
|
|
|
540 #ifdef emacs
|
|
|
541 /* Maybe this should be trickier */
|
|
|
542 #define KEYSYM(x) (intern (x))
|
|
|
543
|
|
380
|
544 /* from events.c */
|
|
398
|
545 void format_event_object (char *buf, Lisp_Event *e, int brief);
|
|
|
546 void character_to_event (Emchar c, Lisp_Event *event,
|
|
0
|
547 struct console *con,
|
|
263
|
548 int use_console_meta_flag,
|
|
|
549 int do_backspace_mapping);
|
|
398
|
550 void zero_event (Lisp_Event *e);
|
|
0
|
551 void deallocate_event_chain (Lisp_Object event);
|
|
|
552 Lisp_Object event_chain_tail (Lisp_Object event);
|
|
|
553 void enqueue_event (Lisp_Object event, Lisp_Object *head, Lisp_Object *tail);
|
|
|
554 Lisp_Object dequeue_event (Lisp_Object *head, Lisp_Object *tail);
|
|
|
555 void enqueue_event_chain (Lisp_Object event_chain, Lisp_Object *head,
|
|
|
556 Lisp_Object *tail);
|
|
|
557 int event_chain_count (Lisp_Object event_chain);
|
|
|
558 void nth_of_key_sequence_as_event (Lisp_Object seq, int n, Lisp_Object event);
|
|
|
559 Lisp_Object key_sequence_to_event_chain (Lisp_Object seq);
|
|
|
560 Lisp_Object event_chain_find_previous (Lisp_Object event_chain,
|
|
|
561 Lisp_Object event);
|
|
|
562 Lisp_Object event_chain_nth (Lisp_Object event_chain, int n);
|
|
|
563 Lisp_Object copy_event_chain (Lisp_Object event_chain);
|
|
2
|
564 /* True if this is a non-internal event
|
|
0
|
565 (keyboard press, menu, scrollbar, mouse button) */
|
|
|
566 int command_event_p (Lisp_Object event);
|
|
398
|
567 void define_self_inserting_symbol (Lisp_Object, Lisp_Object);
|
|
|
568 Emchar event_to_character (Lisp_Event *, int, int, int);
|
|
0
|
569 struct console *event_console_or_selected (Lisp_Object event);
|
|
|
570
|
|
380
|
571 /* from event-stream.c */
|
|
|
572 Lisp_Object allocate_command_builder (Lisp_Object console);
|
|
|
573 void enqueue_magic_eval_event (void (*fun) (Lisp_Object), Lisp_Object object);
|
|
398
|
574 void event_stream_next_event (Lisp_Event *event);
|
|
|
575 void event_stream_handle_magic_event (Lisp_Event *event);
|
|
380
|
576 void event_stream_select_console (struct console *con);
|
|
|
577 void event_stream_unselect_console (struct console *con);
|
|
398
|
578 void event_stream_select_process (Lisp_Process *proc);
|
|
|
579 void event_stream_unselect_process (Lisp_Process *proc);
|
|
263
|
580 USID event_stream_create_stream_pair (void* inhandle, void* outhandle,
|
|
|
581 Lisp_Object* instream, Lisp_Object* outstream, int flags);
|
|
|
582 USID event_stream_delete_stream_pair (Lisp_Object instream, Lisp_Object outstream);
|
|
0
|
583 void event_stream_quit_p (void);
|
|
|
584
|
|
|
585 struct low_level_timeout
|
|
|
586 {
|
|
|
587 int id;
|
|
|
588 EMACS_TIME time;
|
|
|
589 struct low_level_timeout *next;
|
|
|
590 };
|
|
|
591
|
|
|
592 int add_low_level_timeout (struct low_level_timeout **timeout_list,
|
|
|
593 EMACS_TIME thyme);
|
|
|
594 void remove_low_level_timeout (struct low_level_timeout **timeout_list,
|
|
|
595 int id);
|
|
|
596 int get_low_level_timeout_interval (struct low_level_timeout *
|
|
|
597 timeout_list, EMACS_TIME *interval);
|
|
|
598 int pop_low_level_timeout (struct low_level_timeout **timeout_list,
|
|
|
599 EMACS_TIME *time_out);
|
|
|
600 int event_stream_generate_wakeup (unsigned int milliseconds,
|
|
|
601 unsigned int vanilliseconds,
|
|
|
602 Lisp_Object function,
|
|
|
603 Lisp_Object object,
|
|
|
604 int async_p);
|
|
|
605 void event_stream_disable_wakeup (int id, int async_p);
|
|
|
606 void event_stream_deal_with_async_timeout (int interval_id);
|
|
|
607
|
|
|
608 int event_stream_add_async_timeout (EMACS_TIME thyme);
|
|
|
609 void event_stream_remove_async_timeout (int id);
|
|
|
610
|
|
282
|
611 /* from event-stream.c -- focus sanity */
|
|
|
612 extern int focus_follows_mouse;
|
|
|
613 void investigate_frame_change (void);
|
|
|
614
|
|
0
|
615 void emacs_handle_focus_change_preliminary (Lisp_Object frame_inp_and_dev);
|
|
|
616 void emacs_handle_focus_change_final (Lisp_Object frame_inp_and_dev);
|
|
|
617
|
|
|
618 Lisp_Object extract_this_command_keys_nth_mouse_event (int n);
|
|
|
619 Lisp_Object extract_vector_nth_mouse_event (Lisp_Object vector, int n);
|
|
|
620
|
|
|
621 void single_console_state (void);
|
|
|
622 void any_console_state (void);
|
|
|
623 int in_single_console_state (void);
|
|
|
624
|
|
380
|
625 extern int emacs_is_blocking;
|
|
|
626
|
|
|
627 extern volatile int sigint_happened;
|
|
|
628
|
|
0
|
629 #ifdef HAVE_UNIXOID_EVENT_LOOP
|
|
380
|
630 /* from event-unixoid.c */
|
|
|
631
|
|
0
|
632 /* Ceci n'est pas un pipe. */
|
|
|
633 extern int signal_event_pipe[];
|
|
|
634
|
|
|
635 void signal_fake_event (void);
|
|
|
636 void drain_signal_event_pipe (void);
|
|
|
637
|
|
|
638 extern int fake_event_occurred;
|
|
|
639
|
|
2
|
640 int event_stream_unixoid_select_console (struct console *con);
|
|
0
|
641 int event_stream_unixoid_unselect_console (struct console *con);
|
|
398
|
642 int event_stream_unixoid_select_process (Lisp_Process *proc);
|
|
|
643 int event_stream_unixoid_unselect_process (Lisp_Process *proc);
|
|
|
644 int read_event_from_tty_or_stream_desc (Lisp_Event *event,
|
|
380
|
645 struct console *con, int fd);
|
|
263
|
646 USID event_stream_unixoid_create_stream_pair (void* inhandle, void* outhandle,
|
|
|
647 Lisp_Object* instream,
|
|
|
648 Lisp_Object* outstream,
|
|
|
649 int flags);
|
|
|
650 USID event_stream_unixoid_delete_stream_pair (Lisp_Object instream,
|
|
|
651 Lisp_Object outstream);
|
|
|
652
|
|
|
653 /* Beware: this evil macro evaluates its arg many times */
|
|
|
654 #define FD_TO_USID(fd) ((fd)==0 ? (USID)999999 : ((fd)<0 ? USID_DONTHASH : (USID)(fd)))
|
|
|
655
|
|
0
|
656 #endif /* HAVE_UNIXOID_EVENT_LOOP */
|
|
|
657
|
|
|
658 /* Define this if you want the tty event stream to be used when the
|
|
|
659 first console is tty, even if HAVE_X_WINDOWS is defined */
|
|
|
660 /* #define DEBUG_TTY_EVENT_STREAM */
|
|
|
661
|
|
|
662 #endif /* emacs */
|
|
|
663
|
|
398
|
664 #endif /* INCLUDED_events_h_ */
|
