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|
/*
*
* Copyright (c) 1997 Metro Link Incorporated
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF
* OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
* Except as contained in this notice, the name of the Metro Link shall not be
* used in advertising or otherwise to promote the sale, use or other dealings
* in this Software without prior written authorization from Metro Link.
*
*/
/*
* Copyright (c) 1997-2003 by The XFree86 Project, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Except as contained in this notice, the name of the copyright holder(s)
* and author(s) shall not be used in advertising or otherwise to promote
* the sale, use or other dealings in this Software without prior written
* authorization from the copyright holder(s) and author(s).
*/
#ifdef HAVE_XORG_CONFIG_H
#include <xorg-config.h>
#endif
#include "xf86Parser.h"
#include "xf86tokens.h"
#include "Configint.h"
static const xf86ConfigSymTabRec MonitorTab[] = {
{ENDSECTION, "endsection"},
{IDENTIFIER, "identifier"},
{VENDOR, "vendorname"},
{MODEL, "modelname"},
{USEMODES, "usemodes"},
{MODELINE, "modeline"},
{DISPLAYSIZE, "displaysize"},
{HORIZSYNC, "horizsync"},
{VERTREFRESH, "vertrefresh"},
{MODE, "mode"},
{GAMMA, "gamma"},
{OPTION, "option"},
{-1, ""},
};
static const xf86ConfigSymTabRec ModesTab[] = {
{ENDSECTION, "endsection"},
{IDENTIFIER, "identifier"},
{MODELINE, "modeline"},
{MODE, "mode"},
{-1, ""},
};
static const xf86ConfigSymTabRec TimingTab[] = {
{TT_INTERLACE, "interlace"},
{TT_PHSYNC, "+hsync"},
{TT_NHSYNC, "-hsync"},
{TT_PVSYNC, "+vsync"},
{TT_NVSYNC, "-vsync"},
{TT_CSYNC, "composite"},
{TT_PCSYNC, "+csync"},
{TT_NCSYNC, "-csync"},
{TT_DBLSCAN, "doublescan"},
{TT_HSKEW, "hskew"},
{TT_BCAST, "bcast"},
{TT_VSCAN, "vscan"},
{-1, ""},
};
static const xf86ConfigSymTabRec ModeTab[] = {
{DOTCLOCK, "dotclock"},
{HTIMINGS, "htimings"},
{VTIMINGS, "vtimings"},
{FLAGS, "flags"},
{HSKEW, "hskew"},
{BCAST, "bcast"},
{VSCAN, "vscan"},
{ENDMODE, "endmode"},
{-1, ""},
};
#define CLEANUP xf86freeModeLineList
static void
xf86freeModeLineList(XF86ConfModeLinePtr ptr)
{
XF86ConfModeLinePtr prev;
while (ptr) {
TestFree(ptr->ml_identifier);
TestFree(ptr->ml_comment);
prev = ptr;
ptr = ptr->list.next;
free(prev);
}
}
static XF86ConfModeLinePtr
xf86parseModeLine(void)
{
int token;
parsePrologue(XF86ConfModeLinePtr, XF86ConfModeLineRec)
/* Identifier */
if (xf86getSubToken(&(ptr->ml_comment)) != STRING)
Error("ModeLine identifier expected");
ptr->ml_identifier = xf86_lex_val.str;
/* DotClock */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine dotclock expected");
ptr->ml_clock = (int) (xf86_lex_val.realnum * 1000.0 + 0.5);
/* HDisplay */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine Hdisplay expected");
ptr->ml_hdisplay = xf86_lex_val.num;
/* HSyncStart */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine HSyncStart expected");
ptr->ml_hsyncstart = xf86_lex_val.num;
/* HSyncEnd */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine HSyncEnd expected");
ptr->ml_hsyncend = xf86_lex_val.num;
/* HTotal */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine HTotal expected");
ptr->ml_htotal = xf86_lex_val.num;
/* VDisplay */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine Vdisplay expected");
ptr->ml_vdisplay = xf86_lex_val.num;
/* VSyncStart */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine VSyncStart expected");
ptr->ml_vsyncstart = xf86_lex_val.num;
/* VSyncEnd */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine VSyncEnd expected");
ptr->ml_vsyncend = xf86_lex_val.num;
/* VTotal */
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("ModeLine VTotal expected");
ptr->ml_vtotal = xf86_lex_val.num;
token = xf86getSubTokenWithTab(&(ptr->ml_comment), TimingTab);
while ((token == TT_INTERLACE) || (token == TT_PHSYNC) ||
(token == TT_NHSYNC) || (token == TT_PVSYNC) ||
(token == TT_NVSYNC) || (token == TT_CSYNC) ||
(token == TT_PCSYNC) || (token == TT_NCSYNC) ||
(token == TT_DBLSCAN) || (token == TT_HSKEW) ||
(token == TT_VSCAN) || (token == TT_BCAST)) {
switch (token) {
case TT_INTERLACE:
ptr->ml_flags |= XF86CONF_INTERLACE;
break;
case TT_PHSYNC:
ptr->ml_flags |= XF86CONF_PHSYNC;
break;
case TT_NHSYNC:
ptr->ml_flags |= XF86CONF_NHSYNC;
break;
case TT_PVSYNC:
ptr->ml_flags |= XF86CONF_PVSYNC;
break;
case TT_NVSYNC:
ptr->ml_flags |= XF86CONF_NVSYNC;
break;
case TT_CSYNC:
ptr->ml_flags |= XF86CONF_CSYNC;
break;
case TT_PCSYNC:
ptr->ml_flags |= XF86CONF_PCSYNC;
break;
case TT_NCSYNC:
ptr->ml_flags |= XF86CONF_NCSYNC;
break;
case TT_DBLSCAN:
ptr->ml_flags |= XF86CONF_DBLSCAN;
break;
case TT_HSKEW:
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error(NUMBER_MSG, "Hskew");
ptr->ml_hskew = xf86_lex_val.num;
ptr->ml_flags |= XF86CONF_HSKEW;
break;
case TT_BCAST:
ptr->ml_flags |= XF86CONF_BCAST;
break;
case TT_VSCAN:
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error(NUMBER_MSG, "Vscan");
ptr->ml_vscan = xf86_lex_val.num;
ptr->ml_flags |= XF86CONF_VSCAN;
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
Error(INVALID_KEYWORD_MSG, xf86tokenString());
break;
}
token = xf86getSubTokenWithTab(&(ptr->ml_comment), TimingTab);
}
xf86unGetToken(token);
#ifdef DEBUG
printf("ModeLine parsed\n");
#endif
return ptr;
}
static XF86ConfModeLinePtr
xf86parseVerboseMode(void)
{
int token, token2;
int had_dotclock = 0, had_htimings = 0, had_vtimings = 0;
parsePrologue(XF86ConfModeLinePtr, XF86ConfModeLineRec)
if (xf86getSubToken(&(ptr->ml_comment)) != STRING)
Error("Mode name expected");
ptr->ml_identifier = xf86_lex_val.str;
while ((token = xf86getToken(ModeTab)) != ENDMODE) {
switch (token) {
case COMMENT:
ptr->ml_comment = xf86addComment(ptr->ml_comment, xf86_lex_val.str);
break;
case DOTCLOCK:
if ((token = xf86getSubToken(&(ptr->ml_comment))) != NUMBER)
Error(NUMBER_MSG, "DotClock");
ptr->ml_clock = (int) (xf86_lex_val.realnum * 1000.0 + 0.5);
had_dotclock = 1;
break;
case HTIMINGS:
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_hdisplay = xf86_lex_val.num;
else
Error("Horizontal display expected");
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_hsyncstart = xf86_lex_val.num;
else
Error("Horizontal sync start expected");
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_hsyncend = xf86_lex_val.num;
else
Error("Horizontal sync end expected");
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_htotal = xf86_lex_val.num;
else
Error("Horizontal total expected");
had_htimings = 1;
break;
case VTIMINGS:
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_vdisplay = xf86_lex_val.num;
else
Error("Vertical display expected");
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_vsyncstart = xf86_lex_val.num;
else
Error("Vertical sync start expected");
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_vsyncend = xf86_lex_val.num;
else
Error("Vertical sync end expected");
if (xf86getSubToken(&(ptr->ml_comment)) == NUMBER)
ptr->ml_vtotal = xf86_lex_val.num;
else
Error("Vertical total expected");
had_vtimings = 1;
break;
case FLAGS:
token = xf86getSubToken(&(ptr->ml_comment));
if (token != STRING)
Error(QUOTE_MSG, "Flags");
while (token == STRING) {
token2 = xf86getStringToken(TimingTab);
switch (token2) {
case TT_INTERLACE:
ptr->ml_flags |= XF86CONF_INTERLACE;
break;
case TT_PHSYNC:
ptr->ml_flags |= XF86CONF_PHSYNC;
break;
case TT_NHSYNC:
ptr->ml_flags |= XF86CONF_NHSYNC;
break;
case TT_PVSYNC:
ptr->ml_flags |= XF86CONF_PVSYNC;
break;
case TT_NVSYNC:
ptr->ml_flags |= XF86CONF_NVSYNC;
break;
case TT_CSYNC:
ptr->ml_flags |= XF86CONF_CSYNC;
break;
case TT_PCSYNC:
ptr->ml_flags |= XF86CONF_PCSYNC;
break;
case TT_NCSYNC:
ptr->ml_flags |= XF86CONF_NCSYNC;
break;
case TT_DBLSCAN:
ptr->ml_flags |= XF86CONF_DBLSCAN;
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
Error("Unknown flag string");
break;
}
token = xf86getSubToken(&(ptr->ml_comment));
}
xf86unGetToken(token);
break;
case HSKEW:
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("Horizontal skew expected");
ptr->ml_flags |= XF86CONF_HSKEW;
ptr->ml_hskew = xf86_lex_val.num;
break;
case VSCAN:
if (xf86getSubToken(&(ptr->ml_comment)) != NUMBER)
Error("Vertical scan count expected");
ptr->ml_flags |= XF86CONF_VSCAN;
ptr->ml_vscan = xf86_lex_val.num;
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
Error("Unexpected token in verbose \"Mode\" entry\n");
}
}
if (!had_dotclock)
Error("the dotclock is missing");
if (!had_htimings)
Error("the horizontal timings are missing");
if (!had_vtimings)
Error("the vertical timings are missing");
#ifdef DEBUG
printf("Verbose Mode parsed\n");
#endif
return ptr;
}
#undef CLEANUP
#define CLEANUP xf86freeMonitorList
XF86ConfMonitorPtr
xf86parseMonitorSection(void)
{
int has_ident = FALSE;
int token;
parsePrologue(XF86ConfMonitorPtr, XF86ConfMonitorRec)
while ((token = xf86getToken(MonitorTab)) != ENDSECTION) {
switch (token) {
case COMMENT:
ptr->mon_comment = xf86addComment(ptr->mon_comment, xf86_lex_val.str);
break;
case IDENTIFIER:
if (xf86getSubToken(&(ptr->mon_comment)) != STRING)
Error(QUOTE_MSG, "Identifier");
if (has_ident == TRUE)
Error(MULTIPLE_MSG, "Identifier");
ptr->mon_identifier = xf86_lex_val.str;
has_ident = TRUE;
break;
case VENDOR:
if (xf86getSubToken(&(ptr->mon_comment)) != STRING)
Error(QUOTE_MSG, "Vendor");
ptr->mon_vendor = xf86_lex_val.str;
break;
case MODEL:
if (xf86getSubToken(&(ptr->mon_comment)) != STRING)
Error(QUOTE_MSG, "ModelName");
ptr->mon_modelname = xf86_lex_val.str;
break;
case MODE:
HANDLE_LIST(mon_modeline_lst, xf86parseVerboseMode,
XF86ConfModeLinePtr);
break;
case MODELINE:
HANDLE_LIST(mon_modeline_lst, xf86parseModeLine,
XF86ConfModeLinePtr);
break;
case DISPLAYSIZE:
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER)
Error(DISPLAYSIZE_MSG);
ptr->mon_width = xf86_lex_val.realnum;
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER)
Error(DISPLAYSIZE_MSG);
ptr->mon_height = xf86_lex_val.realnum;
break;
case HORIZSYNC:
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER)
Error(HORIZSYNC_MSG);
do {
if (ptr->mon_n_hsync >= CONF_MAX_HSYNC)
Error("Sorry. Too many horizontal sync intervals.");
ptr->mon_hsync[ptr->mon_n_hsync].lo = xf86_lex_val.realnum;
switch (token = xf86getSubToken(&(ptr->mon_comment))) {
case COMMA:
ptr->mon_hsync[ptr->mon_n_hsync].hi =
ptr->mon_hsync[ptr->mon_n_hsync].lo;
break;
case DASH:
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER ||
(float) xf86_lex_val.realnum <
ptr->mon_hsync[ptr->mon_n_hsync].lo)
Error(HORIZSYNC_MSG);
ptr->mon_hsync[ptr->mon_n_hsync].hi = xf86_lex_val.realnum;
if ((token = xf86getSubToken(&(ptr->mon_comment))) == COMMA)
break;
ptr->mon_n_hsync++;
goto HorizDone;
default:
/* We cannot currently know if a '\n' was found,
* or this is a real error
*/
ptr->mon_hsync[ptr->mon_n_hsync].hi =
ptr->mon_hsync[ptr->mon_n_hsync].lo;
ptr->mon_n_hsync++;
goto HorizDone;
}
ptr->mon_n_hsync++;
} while ((token = xf86getSubToken(&(ptr->mon_comment))) == NUMBER);
HorizDone:
xf86unGetToken(token);
break;
case VERTREFRESH:
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER)
Error(VERTREFRESH_MSG);
do {
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo = xf86_lex_val.realnum;
switch (token = xf86getSubToken(&(ptr->mon_comment))) {
case COMMA:
ptr->mon_vrefresh[ptr->mon_n_vrefresh].hi =
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo;
break;
case DASH:
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER ||
(float) xf86_lex_val.realnum <
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo)
Error(VERTREFRESH_MSG);
ptr->mon_vrefresh[ptr->mon_n_vrefresh].hi = xf86_lex_val.realnum;
if ((token = xf86getSubToken(&(ptr->mon_comment))) == COMMA)
break;
ptr->mon_n_vrefresh++;
goto VertDone;
default:
/* We cannot currently know if a '\n' was found,
* or this is a real error
*/
ptr->mon_vrefresh[ptr->mon_n_vrefresh].hi =
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo;
ptr->mon_n_vrefresh++;
goto VertDone;
}
if (ptr->mon_n_vrefresh >= CONF_MAX_VREFRESH)
Error("Sorry. Too many vertical refresh intervals.");
ptr->mon_n_vrefresh++;
} while ((token = xf86getSubToken(&(ptr->mon_comment))) == NUMBER);
VertDone:
xf86unGetToken(token);
break;
case GAMMA:
if (xf86getSubToken(&(ptr->mon_comment)) != NUMBER) {
Error(INVALID_GAMMA_MSG);
}
else {
ptr->mon_gamma_red = ptr->mon_gamma_green =
ptr->mon_gamma_blue = xf86_lex_val.realnum;
if (xf86getSubToken(&(ptr->mon_comment)) == NUMBER) {
ptr->mon_gamma_green = xf86_lex_val.realnum;
if (xf86getSubToken(&(ptr->mon_comment)) == NUMBER) {
ptr->mon_gamma_blue = xf86_lex_val.realnum;
}
else {
Error(INVALID_GAMMA_MSG);
}
}
else
xf86unGetToken(token);
}
break;
case OPTION:
ptr->mon_option_lst = xf86parseOption(ptr->mon_option_lst);
break;
case USEMODES:
{
XF86ConfModesLinkPtr mptr;
if ((token = xf86getSubToken(&(ptr->mon_comment))) != STRING)
Error(QUOTE_MSG, "UseModes");
/* add to the end of the list of modes sections
referenced here */
mptr = calloc(1, sizeof(XF86ConfModesLinkRec));
mptr->list.next = NULL;
mptr->ml_modes_str = xf86_lex_val.str;
mptr->ml_modes = NULL;
ptr->mon_modes_sect_lst = (XF86ConfModesLinkPtr)
xf86addListItem((GenericListPtr) ptr->mon_modes_sect_lst,
(GenericListPtr) mptr);
}
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
xf86parseError(INVALID_KEYWORD_MSG, xf86tokenString());
CLEANUP(ptr);
return NULL;
break;
}
}
if (!has_ident)
Error(NO_IDENT_MSG);
#ifdef DEBUG
printf("Monitor section parsed\n");
#endif
return ptr;
}
#undef CLEANUP
#define CLEANUP xf86freeModesList
XF86ConfModesPtr
xf86parseModesSection(void)
{
int has_ident = FALSE;
int token;
parsePrologue(XF86ConfModesPtr, XF86ConfModesRec)
while ((token = xf86getToken(ModesTab)) != ENDSECTION) {
switch (token) {
case COMMENT:
ptr->modes_comment = xf86addComment(ptr->modes_comment, xf86_lex_val.str);
break;
case IDENTIFIER:
if (xf86getSubToken(&(ptr->modes_comment)) != STRING)
Error(QUOTE_MSG, "Identifier");
if (has_ident == TRUE)
Error(MULTIPLE_MSG, "Identifier");
ptr->modes_identifier = xf86_lex_val.str;
has_ident = TRUE;
break;
case MODE:
HANDLE_LIST(mon_modeline_lst, xf86parseVerboseMode,
XF86ConfModeLinePtr);
break;
case MODELINE:
HANDLE_LIST(mon_modeline_lst, xf86parseModeLine,
XF86ConfModeLinePtr);
break;
default:
xf86parseError(INVALID_KEYWORD_MSG, xf86tokenString());
CLEANUP(ptr);
return NULL;
break;
}
}
if (!has_ident)
Error(NO_IDENT_MSG);
#ifdef DEBUG
printf("Modes section parsed\n");
#endif
return ptr;
}
#undef CLEANUP
void
xf86printMonitorSection(FILE * cf, XF86ConfMonitorPtr ptr)
{
int i;
XF86ConfModeLinePtr mlptr;
XF86ConfModesLinkPtr mptr;
while (ptr) {
mptr = ptr->mon_modes_sect_lst;
fprintf(cf, "Section \"Monitor\"\n");
if (ptr->mon_comment)
fprintf(cf, "%s", ptr->mon_comment);
if (ptr->mon_identifier)
fprintf(cf, "\tIdentifier \"%s\"\n", ptr->mon_identifier);
if (ptr->mon_vendor)
fprintf(cf, "\tVendorName \"%s\"\n", ptr->mon_vendor);
if (ptr->mon_modelname)
fprintf(cf, "\tModelName \"%s\"\n", ptr->mon_modelname);
while (mptr) {
fprintf(cf, "\tUseModes \"%s\"\n", mptr->ml_modes_str);
mptr = mptr->list.next;
}
if (ptr->mon_width)
fprintf(cf, "\tDisplaySize %d\t%d\n",
ptr->mon_width, ptr->mon_height);
for (i = 0; i < ptr->mon_n_hsync; i++) {
fprintf(cf, "\tHorizSync %2.1f - %2.1f\n",
ptr->mon_hsync[i].lo, ptr->mon_hsync[i].hi);
}
for (i = 0; i < ptr->mon_n_vrefresh; i++) {
fprintf(cf, "\tVertRefresh %2.1f - %2.1f\n",
ptr->mon_vrefresh[i].lo, ptr->mon_vrefresh[i].hi);
}
if (ptr->mon_gamma_red) {
if (ptr->mon_gamma_red == ptr->mon_gamma_green
&& ptr->mon_gamma_red == ptr->mon_gamma_blue) {
fprintf(cf, "\tGamma %.4g\n", ptr->mon_gamma_red);
}
else {
fprintf(cf, "\tGamma %.4g %.4g %.4g\n",
ptr->mon_gamma_red,
ptr->mon_gamma_green, ptr->mon_gamma_blue);
}
}
for (mlptr = ptr->mon_modeline_lst; mlptr; mlptr = mlptr->list.next) {
fprintf(cf, "\tModeLine \"%s\" %2.1f ",
mlptr->ml_identifier, mlptr->ml_clock / 1000.0);
fprintf(cf, "%d %d %d %d %d %d %d %d",
mlptr->ml_hdisplay, mlptr->ml_hsyncstart,
mlptr->ml_hsyncend, mlptr->ml_htotal,
mlptr->ml_vdisplay, mlptr->ml_vsyncstart,
mlptr->ml_vsyncend, mlptr->ml_vtotal);
if (mlptr->ml_flags & XF86CONF_PHSYNC)
fprintf(cf, " +hsync");
if (mlptr->ml_flags & XF86CONF_NHSYNC)
fprintf(cf, " -hsync");
if (mlptr->ml_flags & XF86CONF_PVSYNC)
fprintf(cf, " +vsync");
if (mlptr->ml_flags & XF86CONF_NVSYNC)
fprintf(cf, " -vsync");
if (mlptr->ml_flags & XF86CONF_INTERLACE)
fprintf(cf, " interlace");
if (mlptr->ml_flags & XF86CONF_CSYNC)
fprintf(cf, " composite");
if (mlptr->ml_flags & XF86CONF_PCSYNC)
fprintf(cf, " +csync");
if (mlptr->ml_flags & XF86CONF_NCSYNC)
fprintf(cf, " -csync");
if (mlptr->ml_flags & XF86CONF_DBLSCAN)
fprintf(cf, " doublescan");
if (mlptr->ml_flags & XF86CONF_HSKEW)
fprintf(cf, " hskew %d", mlptr->ml_hskew);
if (mlptr->ml_flags & XF86CONF_BCAST)
fprintf(cf, " bcast");
fprintf(cf, "\n");
}
xf86printOptionList(cf, ptr->mon_option_lst, 1);
fprintf(cf, "EndSection\n\n");
ptr = ptr->list.next;
}
}
void
xf86printModesSection(FILE * cf, XF86ConfModesPtr ptr)
{
XF86ConfModeLinePtr mlptr;
while (ptr) {
fprintf(cf, "Section \"Modes\"\n");
if (ptr->modes_comment)
fprintf(cf, "%s", ptr->modes_comment);
if (ptr->modes_identifier)
fprintf(cf, "\tIdentifier \"%s\"\n", ptr->modes_identifier);
for (mlptr = ptr->mon_modeline_lst; mlptr; mlptr = mlptr->list.next) {
fprintf(cf, "\tModeLine \"%s\" %2.1f ",
mlptr->ml_identifier, mlptr->ml_clock / 1000.0);
fprintf(cf, "%d %d %d %d %d %d %d %d",
mlptr->ml_hdisplay, mlptr->ml_hsyncstart,
mlptr->ml_hsyncend, mlptr->ml_htotal,
mlptr->ml_vdisplay, mlptr->ml_vsyncstart,
mlptr->ml_vsyncend, mlptr->ml_vtotal);
if (mlptr->ml_flags & XF86CONF_PHSYNC)
fprintf(cf, " +hsync");
if (mlptr->ml_flags & XF86CONF_NHSYNC)
fprintf(cf, " -hsync");
if (mlptr->ml_flags & XF86CONF_PVSYNC)
fprintf(cf, " +vsync");
if (mlptr->ml_flags & XF86CONF_NVSYNC)
fprintf(cf, " -vsync");
if (mlptr->ml_flags & XF86CONF_INTERLACE)
fprintf(cf, " interlace");
if (mlptr->ml_flags & XF86CONF_CSYNC)
fprintf(cf, " composite");
if (mlptr->ml_flags & XF86CONF_PCSYNC)
fprintf(cf, " +csync");
if (mlptr->ml_flags & XF86CONF_NCSYNC)
fprintf(cf, " -csync");
if (mlptr->ml_flags & XF86CONF_DBLSCAN)
fprintf(cf, " doublescan");
if (mlptr->ml_flags & XF86CONF_HSKEW)
fprintf(cf, " hskew %d", mlptr->ml_hskew);
if (mlptr->ml_flags & XF86CONF_VSCAN)
fprintf(cf, " vscan %d", mlptr->ml_vscan);
if (mlptr->ml_flags & XF86CONF_BCAST)
fprintf(cf, " bcast");
if (mlptr->ml_comment)
fprintf(cf, "%s", mlptr->ml_comment);
else
fprintf(cf, "\n");
}
fprintf(cf, "EndSection\n\n");
ptr = ptr->list.next;
}
}
void
xf86freeMonitorList(XF86ConfMonitorPtr ptr)
{
XF86ConfMonitorPtr prev;
while (ptr) {
TestFree(ptr->mon_identifier);
TestFree(ptr->mon_vendor);
TestFree(ptr->mon_modelname);
TestFree(ptr->mon_comment);
xf86optionListFree(ptr->mon_option_lst);
xf86freeModeLineList(ptr->mon_modeline_lst);
prev = ptr;
ptr = ptr->list.next;
free(prev);
}
}
void
xf86freeModesList(XF86ConfModesPtr ptr)
{
XF86ConfModesPtr prev;
while (ptr) {
TestFree(ptr->modes_identifier);
TestFree(ptr->modes_comment);
xf86freeModeLineList(ptr->mon_modeline_lst);
prev = ptr;
ptr = ptr->list.next;
free(prev);
}
}
XF86ConfMonitorPtr
xf86findMonitor(const char *ident, XF86ConfMonitorPtr p)
{
while (p) {
if (xf86nameCompare(ident, p->mon_identifier) == 0)
return p;
p = p->list.next;
}
return NULL;
}
XF86ConfModesPtr
xf86findModes(const char *ident, XF86ConfModesPtr p)
{
while (p) {
if (xf86nameCompare(ident, p->modes_identifier) == 0)
return p;
p = p->list.next;
}
return NULL;
}
XF86ConfModeLinePtr
xf86findModeLine(const char *ident, XF86ConfModeLinePtr p)
{
while (p) {
if (xf86nameCompare(ident, p->ml_identifier) == 0)
return p;
p = p->list.next;
}
return NULL;
}
int
xf86validateMonitor(XF86ConfigPtr p, XF86ConfScreenPtr screen)
{
XF86ConfMonitorPtr monitor = screen->scrn_monitor;
XF86ConfModesLinkPtr modeslnk = monitor->mon_modes_sect_lst;
XF86ConfModesPtr modes;
while (modeslnk) {
modes = xf86findModes(modeslnk->ml_modes_str, p->conf_modes_lst);
if (!modes) {
xf86validationError(UNDEFINED_MODES_MSG,
modeslnk->ml_modes_str,
screen->scrn_identifier);
return FALSE;
}
modeslnk->ml_modes = modes;
modeslnk = modeslnk->list.next;
}
return TRUE;
}
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