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flightgear/utils/xmlgrep/metadata.c

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C
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#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <xml.h>
char *
getCommandLineOption(int argc, char **argv, char const *option)
{
int slen = strlen(option);
char *rv = 0;
int i;
for (i=0; i<argc; i++)
{
if (strncmp(argv[i], option, slen) == 0)
{
rv = "";
i++;
if (i<argc) rv = argv[i];
}
}
return rv;
}
void
show_help()
{
printf("Usage: metdata [options]\n");
printf("Updates the metadata of a FlightGear aircraft configuration.\n");
printf("\nOptions:\n");
printf(" -i, --input <file>\t\taircraft configuration file to update\n");
printf("\n");
exit(-1);
}
char *strlwr(char *str)
{
unsigned char *p = (unsigned char *)str;
while (*p) {
*p = tolower((unsigned char)*p);
p++;
}
return str;
}
/* -- JSBSim ---------------------------------------------------------------- */
const char*
jsb_wing_tag(void *xid)
{
void *xmid = xmlNodeGet(xid, "/fdm_config/metrics");
void *xlid = xmlMarkId(xmid);
double aero_z = 0.0;
double eye_z = 0.0;
int i, num;
num = xmlNodeGetNum(xmid, "location");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xmid, xlid, "location", i) != 0)
{
if (!xmlAttributeCompareString(xlid, "name", "AERORP")) {
aero_z = xmlNodeGetDouble(xlid, "z");
} else if (!xmlAttributeCompareString(xlid, "name", "EYEPOINT")) {
eye_z = xmlNodeGetDouble(xlid, "z");
}
}
}
xmlFree(xlid);
xmlFree(xmid);
if (aero_z > eye_z) return "high-wing";
else return "low-wing";
}
const char*
jsb_gear_tag(void *xid)
{
void *xgid = xmlNodeGet(xid, "/fdm_config/ground_reactions");
void *xcid = xmlMarkId(xgid);
double nose_x = 0.0;
double main_x = 0.0;
int bogeys = 0;
int i, num;
num = xmlNodeGetNum(xgid, "contact");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xgid, xcid, "contact", i) != 0)
{
if (!xmlAttributeCompareString(xcid, "type", "BOGEY"))
{
if (xmlNodeGetDouble(xcid, "location/y") == 0.0) {
nose_x = xmlNodeGetDouble(xcid, "location/x");
} else {
main_x = xmlNodeGetDouble(xcid, "location/x");
}
bogeys++;
}
}
}
xmlFree(xcid);
xmlFree(xgid);
if (bogeys < 3) return "skids";
else if (main_x < nose_x) return "tail-dragger";
return "tricycle";
}
const char*
jsb_gear_retract_tag(void *xid)
{
int r = xmlNodeGetInt(xid, "/fdm_config/ground_reactions/contact/retractable");
if (r) return "retractable-gear";
else return "fixed-gear";
}
const char*
jsb_gear_steering_tag(void *xid)
{
void *xgid = xmlNodeGet(xid, "/fdm_config/ground_reactions");
void *xcid = xmlMarkId(xgid);
char *rv = "no-steering";
int found = 0;
int i, num;
num = xmlNodeGetNum(xgid, "contact");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xgid, xcid, "contact", i) != 0)
{
if (!xmlAttributeCompareString(xcid, "type", "BOGEY"))
{
if (xmlNodeGetDouble(xcid, "location/y") == 0.0)
{
double m = xmlNodeGetDouble(xcid, "max_steer");
int c = xmlNodeGetInt(xcid, "castered");
if (c || (m == 360.0 && !c)) {
rv = "castering-wheel";
break;
} else if (m > 0.0) {
rv = "normal-steering";
break;
}
else {
rv = "no-steering";
}
}
}
}
}
xmlFree(xcid);
xmlFree(xgid);
return rv;
}
const char*
jsb_engines_tag(void *xid)
{
void *xpid = xmlNodeGet(xid, "/fdm_config/propulsion");
void *xeid = xmlMarkId(xpid);
const char* rv = "multi-engine";
int engines = 0;
int i, num;
char *main;
num = xmlNodeGetNum(xpid, "engine");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xpid, xeid, "engine", i) != 0)
{
if (i == 0)
{
main = xmlAttributeGetString(xeid, "file");
engines++;
}
else if (!xmlAttributeCompareString(xeid, "file", main)) {
engines++;
}
}
}
xmlFree(main);
xmlFree(xeid);
xmlFree(xpid);
switch (engines)
{
case 0:
rv = "glider";
break;
case 1:
rv = "single-engine";
break;
case 2:
rv = "twin-engine";
break;
case 3:
rv = "three-engine";
break;
case 4:
rv = "four-engine";
break;
default:
break;
}
return rv;
}
const char*
jsb_engine_tag(void *xid, char *path)
{
void *xeid = xmlNodeGet(xid, "/fdm_config/propulsion/engine");
char *engine = xmlAttributeGetString(xeid, "file");
char *fname = calloc(1, strlen(path)+strlen("Engines/")+
strlen(engine)+strlen(".xml")+1);
const char *rv = "unknown";
if (fname)
{
void *xfid;
memcpy(fname, path, strlen(path));
memcpy(fname+strlen(path), "Engines/", strlen("Engines/"));
memcpy(fname+strlen(path)+strlen("Engines/"), engine, strlen(engine));
memcpy(fname+strlen(path)+strlen("Engines/")+strlen(engine), ".xml", strlen(".xml"));
xfid = xmlOpen(fname);
if (xfid)
{
if (xmlNodeTest(xfid, "turbine_engine")) rv = "turbine";
else if (xmlNodeTest(xfid, "turboprop_engine")) rv = "turboprop";
else if (xmlNodeTest(xfid, "piston_engine")) rv = "piston";
else if (xmlNodeTest(xfid, "electric_engine")) rv = "electric";
else if (xmlNodeTest(xfid, "rocket_engine")) rv = "rocket";
xmlClose(xfid);
}
else {
printf("JSBSim engine file not found: %s\n", fname);
}
free(fname);
}
else {
printf("Unable to allocate memory\n");
}
xmlFree(engine);
xmlFree(xeid);
return rv;
}
void
update_metadata_jsb(char *path, char *aero)
{
char *fname;
void *xid;
fname = malloc(strlen(path)+strlen(aero)+strlen(".xml"));
if (!fname)
{
printf("Unable to allocate memory\n");
return;
}
memcpy(fname, path, strlen(path));
memcpy(fname+strlen(path), aero, strlen(aero));
memcpy(fname+strlen(path)+strlen(aero), ".xml", strlen(".xml"));
xid = xmlOpen(fname);
if (!xid)
{
printf("JSBSim aero file not found: '%s'\n", fname);
return;
}
printf(" <tags>\n");
printf(" <tag>%s</tag>\n", strlwr(aero));
printf(" <tag>%s</tag>\n", jsb_wing_tag(xid));
printf(" <tag>%s</tag>\n", jsb_gear_tag(xid));
printf(" <tag>%s</tag>\n", jsb_gear_retract_tag(xid));
printf(" <tag>%s</tag>\n", jsb_gear_steering_tag(xid));
printf(" <tag>%s</tag>\n", jsb_engines_tag(xid));
printf(" <tag>%s</tag>\n", jsb_engine_tag(xid, path));
printf(" </tags>\n");
xmlClose(xid);
free(fname);
}
/* -- Yasim ----------------------------------------------------------------- */
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const char*
yasim_wing_tag(void *xid)
{
void *xwid = xmlNodeGet(xid, "airplane/wing");
void *xcid = xmlNodeGet(xid, "airplane/cockpit");
double wing_z = 0.0;
double eye_z = 0.0;
if (xwid)
{
wing_z = xmlAttributeGetDouble(xwid, "z");
xmlFree(xwid);
}
if (xcid)
{
eye_z = xmlAttributeGetDouble(xcid, "z");
xmlFree(xcid);
}
if (wing_z > eye_z) return "high-wing";
else return "low-wing";
}
const char*
yasim_gear_tag(void *xid)
{
void *xaid = xmlNodeGet(xid, "airplane");
void *xgid = xmlMarkId(xaid);
double nose_x = 0.0;
double main_x = 0.0;
int gears = 0;
int i, num;
num = xmlNodeGetNum(xaid, "gear");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xaid, xgid, "gear", i) != 0)
{
if (xmlAttributeGetDouble(xgid, "y") == 0.0) {
nose_x = xmlAttributeGetDouble(xgid, "x");
} else {
main_x = xmlAttributeGetDouble(xgid, "x");
}
gears++;
}
}
xmlFree(xgid);
xmlFree(xaid);
if (gears < 3) return "skids";
else if (main_x > nose_x) return "tail-dragger";
return "tricycle";
}
const char*
yasim_gear_retract_tag(void *xid)
{
void *xaid = xmlNodeGet(xid, "airplane");
void *xgid = xmlMarkId(xaid);
char *rv = "fixed-gear";
int found = 0;
int i, num;
num = xmlNodeGetNum(xaid, "gear");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xaid, xgid, "gear", i) != 0)
{
void *xgcid = xmlMarkId(xgid);
int j, cnum = xmlNodeGetNum(xgid, "control-input");
for (j=0; j<cnum; ++j)
{
if (xmlNodeGetPos(xgid, xgcid, "control-input", j))
{
if (!xmlAttributeCompareString(xgcid, "control", "EXTEND")) {
rv = "retractable-gear";
found = 1;
break;
}
}
}
xmlFree(xgcid);
}
}
xmlFree(xgid);
xmlFree(xaid);
return rv;
}
const char*
yasim_gear_steering_tag(void *xid)
{
void *xaid = xmlNodeGet(xid, "airplane");
void *xgid = xmlMarkId(xaid);
char *rv = "no-steering";
int found = 0;
int i, num;
num = xmlNodeGetNum(xaid, "gear");
for (i=0; i<num; ++i)
{
if (xmlNodeGetPos(xaid, xgid, "gear", i) != 0)
{
void *xgcid = xmlMarkId(xgid);
int j, cnum = xmlNodeGetNum(xgid, "control-input");
for (j=0; j<cnum; ++j)
{
if (xmlNodeGetPos(xgid, xgcid, "control-input", j))
{
if (!xmlAttributeCompareString(xgcid, "control", "STEER")) {
rv = "normal-steering";
found = 1;
break;
}
else if (!xmlAttributeCompareString(xgcid, "control", "CASTERING")) {
rv = "castering-wheel";
found = 1;
break;
}
}
}
xmlFree(xgcid);
}
}
xmlFree(xgid);
xmlFree(xaid);
return rv;
}
const char*
yasim_engines_tag(void *xid)
{
void *xeid = xmlNodeGet(xid, "/airplane");
const char* rv = "multi-engine";
int engines = 0;
if (xmlNodeTest(xeid, "propeller")) {
engines = xmlNodeGetNum(xeid, "propeller");
}
else if (xmlNodeTest(xeid, "jet")) {
engines = xmlNodeGetNum(xeid, "jet");
}
switch (engines)
{
case 0:
rv = "glider";
break;
case 1:
rv = "single-engine";
break;
case 2:
rv = "twin-engine";
break;
case 3:
rv = "three-engine";
break;
case 4:
rv = "four-engine";
break;
default:
break;
}
xmlFree(xeid);
return rv;
}
const char*
yasim_engine_tag(void *xid, char *path)
{
const char* rv = "jet";
if (xmlNodeTest(xid, "/airplane/propeller/piston-engine")) {
rv = "piston";
}
else if (xmlNodeTest(xid, "/airplane/propeller/turbine-engine")) {
rv = "turboprop";
}
else if (xmlNodeTest(xid, "/airplane/jet")) {
rv = "turbine";
}
return rv;
}
void
update_metadata_yasim(char *path, char *aero)
{
char *fname;
void *xid;
fname = malloc(strlen(path)+strlen(aero)+strlen(".xml"));
if (!fname)
{
printf("Unable to allocate memory\n");
return;
}
memcpy(fname, path, strlen(path));
memcpy(fname+strlen(path), aero, strlen(aero));
memcpy(fname+strlen(path)+strlen(aero), ".xml", strlen(".xml"));
xid = xmlOpen(fname);
if (!xid)
{
printf("Yasim aero file not found: '%s'\n", fname);
return;
}
printf(" <tags>\n");
printf(" <tag>%s</tag>\n", strlwr(aero));
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printf(" <tag>%s</tag>\n", yasim_wing_tag(xid));
printf(" <tag>%s</tag>\n", yasim_gear_tag(xid));
printf(" <tag>%s</tag>\n", yasim_gear_retract_tag(xid));
printf(" <tag>%s</tag>\n", yasim_gear_steering_tag(xid));
printf(" <tag>%s</tag>\n", yasim_engines_tag(xid));
printf(" <tag>%s</tag>\n", yasim_engine_tag(xid, path));
printf(" </tags>\n");
xmlClose(xid);
free(fname);
}
/* -------------------------------------------------------------------------- */
void
update_metadata(const char *fname)
{
void *xsid, *xid = xmlOpen(fname);
if (!xid)
{
printf("File not found: '%s'\n", fname);
return;
}
xsid = xmlNodeGet(xid, "/PropertyList/sim");
if (!xsid)
{
printf("path '/PropertyList/sim' not found in '%s'\n", fname);
xmlClose(xid);
return;
}
// if (xmlNodeTest(xsid, "tags") == 0)
if (1)
{
char *str = NULL;
char *path, *pend;
pend = strrchr(fname, '/');
if (!pend) pend = strrchr(fname, '\\');
if (!pend) path = strdup("./");
else
{
pend++;
path = calloc(1, pend-fname+1);
memcpy(path, fname, pend-fname);
}
if (!xmlNodeCompareString(xsid, "flight-model", "jsb"))
{
str = xmlNodeGetString(xsid, "aero");
update_metadata_jsb(path, str);
}
else if (!xmlNodeCompareString(xsid, "flight-model", "yasim"))
{
str = xmlNodeGetString(xsid, "aero");
update_metadata_yasim(path, str);
}
else
{
str = xmlNodeGetString(xsid, "flight-model");
printf("The '%s' flightmodel is unsupported at this time\n", str);
}
xmlFree(xsid);
xmlFree(str);
free(path);
}
else {
printf("'%s' already contains metadata tags\n", fname);
}
xmlClose(xid);
}
int
main(int argc, char **argv)
{
const char *setFile;
if (argc == 1 || getCommandLineOption(argc, argv, "-h") ||
getCommandLineOption(argc, argv, "--help")) {
show_help();
}
setFile = getCommandLineOption(argc, argv, "-i");
if (!setFile) {
setFile = getCommandLineOption(argc, argv, "-input");
}
if (!setFile) {
show_help();
}
update_metadata(setFile);
return 0;
}