Mercurial > hg > xemacs-beta
view src/libsst.c @ 5013:ae48681c47fa
changes to VOID_TO_LISP et al.
-------------------- ChangeLog entries follow: --------------------
src/ChangeLog addition:
2010-02-08 Ben Wing <ben@xemacs.org>
* casetab.c (compute_canon_mapper):
* casetab.c (initialize_identity_mapper):
* casetab.c (compute_up_or_eqv_mapper):
* casetab.c (recompute_case_table):
* casetab.c (set_case_table):
* chartab.c (copy_mapper):
* chartab.c (copy_char_table_range):
* chartab.c (get_range_char_table_1):
* console.c (find_nonminibuffer_frame_not_on_console_predicate):
* console.c (find_nonminibuffer_frame_not_on_console):
* console.c (nuke_all_console_slots):
* device.c:
* device.c (find_nonminibuffer_frame_not_on_device_predicate):
* device.c (find_nonminibuffer_frame_not_on_device):
* dialog-msw.c (dialog_proc):
* dialog-msw.c (handle_question_dialog_box):
* dialog-x.c (maybe_run_dbox_text_callback):
* eval.c:
* eval.c (safe_run_hook_trapping_problems_1):
* eval.c (safe_run_hook_trapping_problems):
* event-msw.c:
* event-msw.c (mswindows_wnd_proc):
* event-msw.c (mswindows_find_frame):
* faces.c (update_face_inheritance_mapper):
* frame-msw.c (mswindows_init_frame_1):
* frame-msw.c (mswindows_get_mouse_position):
* frame-msw.c (mswindows_get_frame_parent):
* glade.c (connector):
* glade.c (Fglade_xml_signal_connect):
* glade.c (Fglade_xml_signal_autoconnect):
* glade.c (Fglade_xml_textdomain):
* glyphs-msw.c (mswindows_subwindow_instantiate):
* glyphs-msw.c (mswindows_widget_instantiate):
* glyphs.c (check_instance_cache_mapper):
* glyphs.c (check_window_subwindow_cache):
* glyphs.c (check_image_instance_structure):
* gui-x.c (snarf_widget_value_mapper):
* gui-x.c (popup_selection_callback):
* gui-x.c (button_item_to_widget_value):
* keymap.c (map_keymap_mapper):
* keymap.c (Fmap_keymap):
* menubar-gtk.c (__torn_off_sir):
* menubar-gtk.c (__activate_menu):
* menubar-gtk.c (menu_convert):
* menubar-gtk.c (__generic_button_callback):
* menubar-gtk.c (menu_descriptor_to_widget_1):
* menubar-msw.c:
* menubar-msw.c (EMPTY_ITEM_ID):
* menubar-x.c (menu_item_descriptor_to_widget_value_1):
* menubar-x.c (pre_activate_callback):
* menubar-x.c (command_builder_operate_menu_accelerator):
* menubar-x.c (command_builder_find_menu_accelerator):
* print.c (print_internal):
* process-unix.c (close_process_descs_mapfun):
* process.c (get_process_from_usid):
* process.c (init_process_io_handles):
* profile.c (sigprof_handler):
* profile.c (get_profiling_info_timing_maphash):
* profile.c (Fget_profiling_info):
* profile.c (set_profiling_info_timing_maphash):
* profile.c (mark_profiling_info_maphash):
* scrollbar-msw.c (mswindows_create_scrollbar_instance):
* scrollbar-msw.c (mswindows_free_scrollbar_instance):
* scrollbar-msw.c (mswindows_handle_scrollbar_event):
* specifier.c (recompute_cached_specifier_everywhere_mapfun):
* specifier.c (recompute_cached_specifier_everywhere):
* syntax.c (copy_to_mirrortab):
* syntax.c (copy_if_not_already_present):
* syntax.c (update_just_this_syntax_table):
* text.c (new_dfc_convert_now_damn_it):
* text.h (LISP_STRING_TO_EXTERNAL):
* tooltalk.c:
* tooltalk.c (tooltalk_message_callback):
* tooltalk.c (tooltalk_pattern_callback):
* tooltalk.c (Fcreate_tooltalk_message):
* tooltalk.c (Fcreate_tooltalk_pattern):
* ui-byhand.c (__generic_toolbar_callback):
* ui-byhand.c (generic_toolbar_insert_item):
* ui-byhand.c (__emacs_gtk_ctree_recurse_internal):
* ui-byhand.c (Fgtk_ctree_recurse):
* ui-gtk.c (__internal_callback_destroy):
* ui-gtk.c (__internal_callback_marshal):
* ui-gtk.c (Fgtk_signal_connect):
* ui-gtk.c (gtk_type_to_lisp):
* ui-gtk.c (lisp_to_gtk_type):
* ui-gtk.c (lisp_to_gtk_ret_type):
* lisp-disunion.h:
* lisp-disunion.h (NON_LVALUE):
* lisp-union.h:
* lisp.h (LISP_HASH):
Rename:
LISP_TO_VOID -> STORE_LISP_IN_VOID
VOID_TO_LISP -> GET_LISP_FROM_VOID
These new names are meant to clearly identify that the Lisp object
is the source and void the sink, and that they can't be used the
other way around -- they aren't exact opposites despite the old
names. The names are also important given the new functions
created just below. Also, clarify comments in lisp-union.h and
lisp-disunion.h about the use of the functions.
* lisp.h:
New functions STORE_VOID_IN_LISP and GET_VOID_FROM_LISP. These
are different from the above in that the source is a void *
(previously, you had to use make_opaque_ptr()).
* eval.c (restore_lisp_object):
* eval.c (record_unwind_protect_restoring_lisp_object):
* eval.c (struct restore_int):
* eval.c (restore_int):
* eval.c (record_unwind_protect_restoring_int):
* eval.c (free_pointer):
* eval.c (record_unwind_protect_freeing):
* eval.c (free_dynarr):
* eval.c (record_unwind_protect_freeing_dynarr):
* eval.c (unbind_to_1):
Use STORE_VOID_IN_LISP and GET_VOID_FROM_LISP to eliminate the
use of make_opaque_ptr() and mostly eliminate Lisp consing
entirely in the use of these various record_unwind_protect_*
functions as well as internal_bind_* (e.g. internal_bind_int).
* tests.c:
* tests.c (Ftest_store_void_in_lisp):
* tests.c (syms_of_tests):
* tests.c (vars_of_tests):
Add an C-assert-style test to test STORE_VOID_IN_LISP and
GET_VOID_FROM_LISP to make sure the same value comes back that
was put in.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Mon, 08 Feb 2010 06:42:16 -0600 |
| parents | ecf1ebac70d8 |
| children |
line wrap: on
line source
/* libsst.c - SPARC sound tools library ** ** Copyright (C) 1989 by Jef Poskanzer. ** ** Permission to use, copy, modify, and distribute this software and its ** documentation for any purpose and without fee is hereby granted, provided ** that the above copyright notice appear in all copies and that both that ** copyright notice and this permission notice appear in supporting ** documentation. This software is provided "as is" without express or ** implied warranty. ** Hacked on by jwz for emacs. */ /* Synched up with: Not in FSF. */ /* This file Mule-ized by Ben Wing, 5-15-01. */ #include <config.h> #include "lisp.h" #include "sound.h" #include "libsst.h" #include "sysfile.h" #define AUDBUF 1024 int sst_open(play_level, record_level) int play_level, record_level; { int fd, i, gr, ger, gx; struct audio_ioctl ai; Extbyte *ep; fd = open ("/dev/audio", O_RDWR); if ( fd < 0 ) { sound_perror( "sst_open: open /dev/audio" ); return( fd ); } #ifdef AUDIOSETQSIZE /* This no longer exists as of 4.1.2. */ /* Shrink audio device's queue size, to cut down time delay. */ i = AUDBUF; if ( ioctl( fd, AUDIOSETQSIZE, &i ) < 0 ) { sound_perror( "sst_open: SETQSIZE" ); return( fd ); } #endif /* AUDIOSETQSIZE */ /* Set gains. -10 <= ger <= 18, -18 <= gr <= 12, -18 <= gx <= 12. */ if (!play_level) { play_level = 75; if ( (ep = egetenv( "SST_PLAY" )) != NULL ) { play_level = atoi( ep ); if ( play_level < 0 || play_level > 99 ) { sound_warn( "sst_open: SST_PLAY must be between 0 and 99" ); return( -1 ); } } } if (!record_level) { record_level = 75; if ( (ep = egetenv( "SST_RECORD" )) != NULL ) { record_level = atoi( ep ); if ( record_level < 0 || record_level > 99 ) { sound_warn( "sst_open: SST_RECORD must be between 0 and 99" ); return( -1 ); } } } play_level = play_level * 59 / 100 - 28; ger = play_level / 2; gr = play_level - ger; if ( ger < -10 ) { ger = -10; gr = play_level - ger; } if ( gr > 12 ) { gr = 12; ger = play_level - gr; } gx = record_level * 31 / 100 - 18; sst_set_gr( fd, gr ); sst_set_ger( fd, ger ); sst_set_gx( fd, gx ); /* Initialize the MMR2 register to send the output to either ** the speaker or the earphone jack, depending on SST_EARPHONES. */ ai.control = AUDIO_MAP_MMR2; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_open: GETREG MMR2" ); return( -1 ); } if ( (ep = egetenv( "SST_EARPHONES" )) != NULL ) ai.data[0] &= ~AUDIO_MMR2_BITS_LS; else ai.data[0] |= AUDIO_MMR2_BITS_LS; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_open: SETREG MMR2" ); return( fd ); } return fd; } void sst_close( fd ) int fd; { struct audio_ioctl ai; ai.control = AUDIO_MAP_MMR1; ai.data[0] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_close: SETREG MMR1" ); } ai.control = AUDIO_MAP_MMR2; ai.data[0] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_close: SETREG MMR2" ); } close( fd ); } /* These are tables of values to be loaded into various gain registers. */ static Binbyte ger_table[][2] = { 0xaa, 0xaa, /* -10db */ 0x79, 0xac, 0x41, 0x99, 0x9c, 0xde, 0x74, 0x9c, /* -6db */ 0x6a, 0xae, 0xab, 0xdf, 0x64, 0xab, 0x2a, 0xbd, 0x5c, 0xce, 0x00, 0x99, /* 0db */ 0x43, 0xdd, 0x52, 0xef, 0x55, 0x42, 0x31, 0xdd, 0x43, 0x1f, 0x40, 0xdd, /* 6db */ 0x44, 0x0f, 0x31, 0x1f, 0x10, 0xdd, 0x41, 0x0f, 0x60, 0x0b, 0x42, 0x10, /* 12db */ 0x11, 0x0f, 0x72, 0x00, 0x21, 0x10, 0x22, 0x00, 0x00, 0x0b, 0x00, 0x0f, /* 18db */ }; static Binbyte gr_gx_table[][2] = { 0x8b, 0x7c, /* -18db */ 0x8b, 0x35, 0x8b, 0x24, 0x91, 0x23, 0x91, 0x2a, 0x91, 0x3b, 0x91, 0xf9, /* -12db */ 0x91, 0xb6, 0x91, 0xa4, 0x92, 0x32, 0x92, 0xaa, 0x93, 0xb3, 0x9f, 0x91, /* -6db */ 0x9b, 0xf9, 0x9a, 0x4a, 0xa2, 0xa2, 0xaa, 0xa3, 0xbb, 0x52, 0x08, 0x08, /* 0db */ 0x3d, 0xac, 0x25, 0x33, 0x21, 0x22, 0x12, 0xa2, 0x11, 0x3b, 0x10, 0xf2, /* 6db */ 0x02, 0xca, 0x01, 0x5a, 0x01, 0x12, 0x00, 0x32, 0x00, 0x13, 0x00, 0x0e, /* 12db */ }; void sst_set_ger( fd, value ) int fd, value; { struct audio_ioctl ai; if ( ( value < -10 ) || ( value > 18 ) ) { Extbyte buf [255]; sprintf (buf, "sst_set_ger: GER %d out of range", value); sound_warn(buf); return; } /* Add 10 to the value to get the index into the table. */ ai.control = AUDIO_MAP_GER; ai.data[0] = ger_table[value + 10][1]; ai.data[1] = ger_table[value + 10][0]; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_ger: SETREG GER" ); } ai.control = AUDIO_MAP_MMR1; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_set_ger: GETREG MMR1" ); } ai.data[0] |= AUDIO_MMR1_BITS_LOAD_GER; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_ger: SETREG MMR1" ); } } void sst_set_gr( fd, value ) int fd, value; { struct audio_ioctl ai; if ( ( value < -18 ) || ( value > 12 ) ) { Extbyte buf [255]; sprintf (buf, "sst_set_gr: GR %d out of range", value); sound_warn (buf); return; } ai.control = AUDIO_MAP_GR; ai.data[0] = gr_gx_table[value + 18][1]; ai.data[1] = gr_gx_table[value + 18][0]; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gr: SETREG GR" ); } ai.control = AUDIO_MAP_MMR1; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_set_gr: GETREG MMR1" ); } ai.data[0] |= AUDIO_MMR1_BITS_LOAD_GR; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gr: SETREG MMR1" ); } } void sst_set_gx( fd, value ) int fd, value; { struct audio_ioctl ai; Extbyte buf [255]; if ( ( value < -18 ) || ( value > 12 ) ) { sprintf (buf, "sst_set_gx: GX %d out of range", value); sound_warn (buf); return; } /* We add 18 to get the index into the table, since entry 0 represents * -18db. */ ai.control = AUDIO_MAP_GX; ai.data[0] = gr_gx_table[value + 18][1]; ai.data[1] = gr_gx_table[value + 18][0]; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gx: SETREG GX" ); } ai.control = AUDIO_MAP_MMR1; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_set_gx: GETREG MMR1" ); } ai.data[0] |= AUDIO_MMR1_BITS_LOAD_GX; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_set_gx: SETREG MMR1" ); } } void sst_tones( fd, dhz1, dhz2, thz, rhz, usec ) int fd, dhz1, dhz2, thz, rhz, usec; { Extbyte buf [255]; struct audio_ioctl ai; int dval1, dval2, tval, rval; Binbyte oldmmr2, newmmr2; if ( dhz1 == 0 ) dval1 = 0; else { dval1 = ( dhz1 * 128 + 63 ) / 1000; if ( ( dval1 < 1 ) || ( dval1 > 255 ) ) { sprintf(buf, "sst_tones: dhz1 %d out of range", dhz1 ); sound_warn (buf); return; } } if ( dhz2 == 0 ) dval2 = 0; else { dval2 = ( dhz2 * 128 + 63 ) / 1000; if ( ( dval2 < 1 ) || ( dval2 > 255 ) ) { sprintf(buf, "sst_tones: dhz2 %d out of range", dhz2 ); sound_warn (buf); return; } } if ( thz == 0 ) tval = 0; else { tval = ( thz * 128 + 63 ) / 2000; if ( ( tval < 1 ) || ( tval > 255 ) ) { sprintf(buf, "sst_tones: thz %d out of range", thz ); sound_warn (buf); return; } } if ( rhz == 0 ) rval = 0; else { rval = ( rhz * 128 + 63 ) / 2000; if ( ( rval < 1 ) || ( rval > 255 ) ) { sprintf(buf, "sst_tones: rhz %d out of range", dhz2 ); sound_warn (buf); return; } } if ( ( dval1 != 0 || dval2 != 0 ) && ( tval != 0 || rval != 0 ) ) { sprintf(buf, "sst_tones: cannot use DTMF and TONE or RINGER at the same time", dhz2 ); sound_warn (buf); return; } if ( tval != 0 && rval != 0 ) { sprintf(buf, "sst_tones: cannot use TONE and RINGER at the same time", dhz2 ); sound_warn (buf); return; } ai.control = AUDIO_MAP_MMR2; if ( ioctl( fd, AUDIOGETREG, &ai ) < 0 ) { sound_perror( "sst_tones: GETREG MMR2" ); } oldmmr2 = newmmr2 = ai.data[0]; if ( dval1 != 0 || dval2 != 0 ) { newmmr2 |= AUDIO_MMR2_BITS_DTMF; ai.control = AUDIO_MAP_FTGR; ai.data[0] = dval1; ai.data[1] = dval2; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG FTGR" ); } } if ( tval != 0 ) { newmmr2 |= AUDIO_MMR2_BITS_TONE; ai.control = AUDIO_MAP_FTGR; ai.data[0] = tval; ai.data[1] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG FTGR" ); } } if ( rval != 0 ) { newmmr2 |= AUDIO_MMR2_BITS_RINGER; ai.control = AUDIO_MAP_FTGR; ai.data[0] = rval; ai.data[1] = 0; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG FTGR" ); } } ai.control = AUDIO_MAP_MMR2; ai.data[0] = newmmr2; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG MMR2" ); } usleep( usec ); ai.data[0] = oldmmr2; if ( ioctl( fd, AUDIOSETREG, &ai ) < 0 ) { sound_perror( "sst_tones: SETREG MMR2" ); } } void sst_dtmf( fd, dial, usecper, usecpause ) int fd, usecper, usecpause; Extbyte *dial; { Extbyte *cp; for ( cp = dial; *cp != '\0'; cp++ ) { switch ( *cp ) { case '1': sst_tones( fd, 703, 1211, 0, 0, usecper ); break; case '2': sst_tones( fd, 703, 1336, 0, 0, usecper ); break; case '3': sst_tones( fd, 703, 1492, 0, 0, usecper ); break; case 'A': sst_tones( fd, 703, 1648, 0, 0, usecper ); break; case '4': sst_tones( fd, 773, 1211, 0, 0, usecper ); break; case '5': sst_tones( fd, 773, 1336, 0, 0, usecper ); break; case '6': sst_tones( fd, 773, 1492, 0, 0, usecper ); break; case 'B': sst_tones( fd, 773, 1648, 0, 0, usecper ); break; case '7': sst_tones( fd, 859, 1211, 0, 0, usecper ); break; case '8': sst_tones( fd, 859, 1336, 0, 0, usecper ); break; case '9': sst_tones( fd, 859, 1492, 0, 0, usecper ); break; case 'C': sst_tones( fd, 859, 1648, 0, 0, usecper ); break; case '*': sst_tones( fd, 945, 1211, 0, 0, usecper ); break; case '0': sst_tones( fd, 945, 1336, 0, 0, usecper ); break; case '#': sst_tones( fd, 945, 1492, 0, 0, usecper ); break; case 'D': sst_tones( fd, 945, 1648, 0, 0, usecper ); break; case ' ': case '-': case '(': case ')': case '+': continue; /* ignore */ case ',': usleep( usecper ); break; /* big pause */ default: { Extbyte buf [255]; sprintf( buf, "sst_dtmf: unknown dialing code '%c'", *cp ); sound_warn (buf); } } usleep( usecpause ); } }