private static void setStream(String in, String out) {
try {
System.setIn(new BufferedInputStream(new FileInputStream(in)));
System.setOut(new PrintStream(out));
} catch (Exception e) {
e.printStackTrace();
}
}
public static void main(String args[]) {
try {
System.setIn(new FileInputStream("vans.in"));
System.setOut(new PrintStream("vans.out"));
} catch (Throwable T_T) {
}
new vans().run();
}
/**
* Adds an old value with a fixed timestamp to the sample.
*
* @param value the value to be added
* @param timestamp the epoch timestamp of {@code value} in seconds
*/
public void update(long value, long timestamp) {
lockForRegularUsage();
try {
final double priority = weight(timestamp - startTime) / random();
final long newCount = count.incrementAndGet();
if (newCount <= reservoirSize) {
values.put(priority, value);
} else {
Double first = values.firstKey();
if (first < priority) {
if (values.putIfAbsent(priority, value) == null) {
// ensure we always remove an item
while (values.remove(first) == null) {
first = values.firstKey();
}
}
}
}
} finally {
unlockForRegularUsage();
}
final long now = System.nanoTime();
final long next = nextScaleTime.get();
if (now >= next) {
rescale(now, next);
}
}
public static void main(String[] args) {
A2 instance = new A2();
Task solver = instance.new Task();
solver.solve();
instance.out.close();
System.exit(0);
}
public void onTick() {
long currentTime = System.currentTimeMillis();
long timeDiff = currentTime - lastTickTime;
millisSinceLastDragonFrameChange += timeDiff;
if (millisSinceLastDragonFrameChange > 500) {
cycleDragonFrame();
millisSinceLastDragonFrameChange = 0;
}
millisSinceLastFlagFrameChange += timeDiff;
if (millisSinceLastFlagFrameChange > 500) {
cycleFlagFrame();
millisSinceLastFlagFrameChange = 0;
}
lastTickTime = currentTime;
try {
getWorld().onTick();
} catch (SQLException exception) {
client
.getLogger()
.log(
WARNING,
"Failed to update unit in database (but this is the client, so it should be fine)",
exception);
}
repaint();
}
void pln(String s) {
try {
bw.write(s);
bw.write(System.lineSeparator());
} catch (Exception ex) {
}
}
/* play the game */
private void play() {
t0 = System.currentTimeMillis(); /*Times the beginning of the game */
currentTime = System.currentTimeMillis() - t0;
generateRandomOrderTimes();
System.out.println("next t1 is in " + orderTimes.get(0));
System.out.println("next t2 is in " + orderTimes.get(1));
System.out.println("next t3 is in " + orderTimes.get(2));
while (System.currentTimeMillis() - t0 < ENDOFGAMETIME) {
pause(100);
/*Update the days label*/
daysElapsed = (int) ((System.currentTimeMillis() - t0) / (LENGTHOFADAY * 1000));
daysElapsedLabel.setLabel("DAYS " + daysElapsed);
scanEquipments();
}
}
/*setup the game */
private void setup() {
t0 = System.currentTimeMillis(); /*Times the beginning of the game */
// int size;
Scanner in = new Scanner(System.in);
// System.out.println("Enter the size of available");
// size = in.nextInt();
initiateScores();
placeWalls();
placeStates();
placeLabels();
randomizeOrderRent(); /*randomizes the order of the equipment for the On Rent state */
System.out.println(
"How many High Runners at price $" + EQUIPMENTCOSTS[0] + " do you want to buy?");
int type1Equip = in.nextInt();
System.out.println(
"How many Medium Runners at price $" + EQUIPMENTCOSTS[1] + " do you want to buy?");
int type2Equip = in.nextInt();
System.out.println(
"How many Low Runners at price $" + EQUIPMENTCOSTS[2] + " do you want to buy?");
int type3Equip = in.nextInt();
capitalInvested =
EQUIPMENTCOSTS[0] * type1Equip
+ EQUIPMENTCOSTS[1] * type2Equip
+ EQUIPMENTCOSTS[2] * type3Equip;
capitalLabel.setLabel("Capital Invested: $" + capitalInvested);
fillAvailable(type1Equip, type2Equip, type3Equip); // fills with the proper number of equipment
// fillStates(size,INITRENT,INITSHOP);
placeEquipments();
}
public static void main(String[] args) {
InputReader in = new InputReader(System.in);
OutputWriter out = new OutputWriter(System.out);
A1Task solver = new A1Task();
solver.solve(in, out);
out.close();
System.exit(0);
}
void run() throws Exception {
in = oj ? System.in : new ByteArrayInputStream(INPUT.getBytes());
out = new PrintWriter(System.out);
long s = System.currentTimeMillis();
solve();
out.flush();
// pr(System.currentTimeMillis() - s + "ms");
}
public static void main(String[] args) {
double[] sigma = {3E-4, 1E-6, 2.4E-2, 6.67E-5, 1E-6, 6E-3, 4.4E-4, 1E-2, 1E-6};
double[] mu = {0.42E9, 2.27};
double alpha = 0.0;
Sampler sampler = new Sampler(mu, sigma, alpha);
double[][] M = sampler.getCovMat();
System.out.println("The Covirance Matrix is:");
sampler.printMatrix(M);
double[][] A = sampler.getCholDecompA();
System.out.println("The decomposed Matrix A is");
sampler.printMatrix(A);
try {
File file = new File("/Users/Weizheng/Documents/JavaWorkPlace/CLS_MCIntegrator/output.txt");
// if file doesnt exists, then create it
if (!file.exists()) {
file.createNewFile();
} else {
file.delete();
file.createNewFile();
}
PrintWriter fw = new PrintWriter(file);
long startTime = System.currentTimeMillis();
for (int i = 0; i < 1E3; i++) {
double[] MultiNormalVector = sampler.nextMultiNormalVector();
// for(double a:MultiNormalVector ){
// fw.printf("%4.2e ", a);
// }
// fw.println("");
}
fw.close();
long endTime = System.currentTimeMillis();
System.out.println("That took " + (endTime - startTime) + " milliseconds");
} catch (IOException e) {
e.printStackTrace();
}
}
public static void main(String[] args) {
String sourceFile = args[0];
int m = Integer.parseInt(args[1]);
String format = sourceFile.substring(1 + sourceFile.lastIndexOf('.'));
String targetBase = sourceFile.substring(0, sourceFile.lastIndexOf('.'));
String targetFile0 = targetBase + "_" + m + "_0." + format;
String targetFile1 = targetBase + "_" + m + "_1." + format;
String targetFile2 = targetBase + "_" + m + "_2." + format;
KernelJAI gaussKernel = createGaussianKernel(m);
dumpKernelData("Gaussian", gaussKernel);
KernelJAI distKernel = createDistancesKernel(m);
dumpKernelData("Distances", distKernel);
RenderedOp source = FileLoadDescriptor.create(sourceFile, null, true, null);
source = BandSelectDescriptor.create(source, new int[1], null);
System.out.println("Writing " + targetFile0);
FileStoreDescriptor.create(source, targetFile0, format, null, false, null);
long t1 = System.currentTimeMillis();
System.out.println("Computing " + targetFile1);
BorderExtender borderExtender = BorderExtender.createInstance(BorderExtender.BORDER_COPY);
RenderedOp target1 =
ConvolveDescriptor.create(
source, gaussKernel, new RenderingHints(JAI.KEY_BORDER_EXTENDER, borderExtender));
RenderedOp mask = ClampDescriptor.create(source, new double[] {0}, new double[] {1}, null);
mask = MultiplyConstDescriptor.create(mask, new double[] {255}, null);
mask = NotDescriptor.create(mask, null);
mask = ClampDescriptor.create(mask, new double[] {0}, new double[] {1}, null);
target1 = MultiplyDescriptor.create(target1, mask, null);
target1 = AddDescriptor.create(target1, source, null);
System.out.println("Writing " + targetFile1);
FileStoreDescriptor.create(target1, targetFile1, format, null, false, null);
System.out.println("Done in " + (System.currentTimeMillis() - t1) + " ms");
long t2 = System.currentTimeMillis();
System.out.println("Computing " + targetFile2);
BufferedImage target2 = convolveICOL(source, gaussKernel, distKernel);
System.out.println("Writing " + targetFile2);
FileStoreDescriptor.create(target2, targetFile2, format, null, false, null);
System.out.println("Done in " + (System.currentTimeMillis() - t2) + " ms");
}
private void browseAction() {
if (selectedPath == null) {
selectedPath = System.getenv("ROPE_SOURCES_DIR");
if (selectedPath != null) {
File dir = new File(selectedPath);
if (!dir.exists() || !dir.isDirectory()) {
String message =
String.format(
"The sources path set in environment variable ROPE_SOURCES_DIR is not avaliable.\n%s",
selectedPath);
JOptionPane.showMessageDialog(null, message, "ROPE", JOptionPane.WARNING_MESSAGE);
selectedPath = null;
} else {
System.out.println("Source folder path set from ROPE_SOURCES_DIR: " + selectedPath);
}
}
if (selectedPath == null) {
selectedPath = System.getProperty("user.dir");
System.out.println("Source folder path set to current directory: " + selectedPath);
}
}
Vector<RopeFileFilter> filters = new Vector<RopeFileFilter>();
filters.add(
new RopeFileFilter(
new String[] {".a", ".asm", ".aut", ".s"}, "Assembly files (*.a *.asm *.aut *.s)"));
filters.add(new RopeFileFilter(new String[] {".m", ".mac"}, "Macro files (*.m *.mac)"));
filters.add(new RopeFileFilter(new String[] {".lst"}, "List files (*.lst)"));
filters.add(new RopeFileFilter(new String[] {".txt"}, "Text files (*.txt)"));
RopeFileChooser chooser = new RopeFileChooser(selectedPath, null, filters);
chooser.setDialogTitle("Source document selection");
chooser.setFileFilter(filters.firstElement());
chooser.setFileSelectionMode(JFileChooser.FILES_AND_DIRECTORIES);
File file = chooser.open(this, fileText);
if (file != null) {
if (loadSourceFile(file)) {
mainFrame.showExecWindow(baseName);
}
}
}
void run() {
Scanner sc = new Scanner(System.in);
int oo = sc.nextInt();
for (int o = 1; o <= oo; o++) {
que = new PriorityQueue<E>();
int n = sc.nextInt();
tank = new Tank();
count = 0;
int[] h = new int[n + 3], b = new int[n + 3];
h[0] = 100;
b[0] = 0;
h[n + 1] = 50;
b[n + 1] = 100;
h[n + 2] = 50;
b[n + 2] = INF;
for (int i = 1; i <= n; i++) {
b[i] = sc.nextInt();
h[i] = sc.nextInt();
}
n += 3;
for (int i = 1; i < n; i++) {
tank.bs.add(new Box(b[i - 1], b[i], h[i - 1], h[i], 0, 0));
}
int m = sc.nextInt();
for (int i = 0; i < m; i++) {
int f = sc.nextInt();
double a = sc.nextDouble() / 30;
for (Box box : tank.bs) {
if (box.b1 < f && f < box.b2) box.f += a;
}
}
debug(tank.bs);
int l = sc.nextInt();
res = new double[l];
for (int i = 0; i < l; i++) {
que.offer(new W(sc.nextInt(), sc.nextDouble(), i));
}
que.offer(tank.nextEvent());
debug(que.size());
while (!que.isEmpty()) {
if (res[0] < 0) System.exit(1);
que.poll().go();
debug(que.peek().time());
debug(tank.bs);
debug(res);
debug();
if (count == l) break;
}
for (double r : res) {
System.out.println(r);
}
}
}
/*compute the initial Time outs for all equipments */
private void computeInitialTimes() {
System.out.println("t0 is" + t0);
double timeDiff = 0;
/*Times for available equipment will depend on the type and position in queue as it's FIFO */
generateRandomOrderTimes();
/*for equipment on rent, it's simply at the end of the rental period */
for (Equipment e : rentEquipment) {
e.timeIn = System.currentTimeMillis() - t0;
timeDiff = nextRandomTime(RENTALFREQUENCY[e.type - 1]);
e.timeOut = System.currentTimeMillis() + timeDiff - t0;
System.out.println("I am in state " + e.state + " and order " + rentEquipment.indexOf(e));
System.out.println(
"My time in is "
+ e.timeIn
+ " And my time out is "
+ e.timeOut
+ " and the difference between the 2 is "
+ (e.timeOut - e.timeIn));
/*System.out.println("and nextRandomTime returns" + nextRandomTime(e.timeIn,RENTALFREQUENCY[e.type-1]) +" for type "+e.type+" for RentalFrequency "+RENTALFREQUENCY[e.type-1]);
System.out.println("For equipment in state "+e.state+" and order "+rentEquipment.indexOf(e)+" : inter-arrival is "+(e.timeOut-e.timeIn)); */
}
/*for equipment in the shop, it's simply at the end of the rental period */
for (Equipment e : shopEquipment) {
e.timeIn = System.currentTimeMillis() - t0;
timeDiff = nextRandomTime(SHOPFREQUENCY[e.type - 1]);
e.timeOut = System.currentTimeMillis() + timeDiff - t0;
System.out.println("I am in state " + e.state + " and order " + shopEquipment.indexOf(e));
System.out.println(
"My time in is "
+ e.timeIn
+ " And my time out is "
+ e.timeOut
+ " and the difference between the 2 is "
+ (e.timeOut - e.timeIn));
/*System.out.println("For equipment in state "+e.state+" and order "+shopEquipment.indexOf(e)+" : inter-arrival is "+(e.timeOut-e.timeIn)); */
}
}
/*Scans the particular equipment and decides whether or not it shoud be moved */
private int scan(Equipment equip) {
double currentTime = System.currentTimeMillis() - t0;
int orderMoved = -1;
int or = -1;
switch (equip.state) {
case 1:
or = availEquipment.indexOf(equip);
break;
case 2:
or = rentEquipment.indexOf(equip);
break;
case 3:
or = shopEquipment.indexOf(equip);
break;
}
// System.out.println("Now looking at state "+equip.state+" and type "+equip.type+" and order"
// +or);
// System.out.println("Current time is "+currentTime+" while equip.timeOut time is
// "+equip.timeOut+" and the difference is "+(equip.timeOut-currentTime));
switch (equip.state) {
case 1:
break;
case 2:
if (equip.timeOut < System.currentTimeMillis() - t0) {
orderMoved = rentEquipment.indexOf(equip);
return orderMoved;
}
break;
case 3:
if (equip.timeOut < System.currentTimeMillis() - t0) {
orderMoved = shopEquipment.indexOf(equip);
// System.out.println("I have just moved equipment from state 3 "+equip.state+" of type
// "+equip.type+" and of order "+shopEquipment.indexOf(equip));
return orderMoved;
}
break;
}
return orderMoved;
}
public CA3(float SCSymmetricDivBalance, int maxDivisions, float densityV) {
int time = (int) System.currentTimeMillis();
random = new MersenneTwisterFast(5); // choose a seed a number or 'time'
asymmetricRatio = SCSymmetricDivBalance;
maxProDivisions = maxDivisions;
maxMatureCellAge = 1;
// densityVasculature=densityV;
carriedGenome = new StringBuilder[size][size];
// tree = new Hashtable<Integer,Integer>();
// timeTree = new Hashtable<Integer, Integer>();
reset();
// resetVasculature();
}
/** @param args */
public static void main(String[] args) throws Exception {
File file = new File("input.txt");
if (file.exists()) {
System.setIn(new BufferedInputStream(new FileInputStream("input.txt")));
}
out = System.out;
bw = new BufferedWriter(new PrintWriter(out));
// sc = new Scanner(System.in);
br = new BufferedReader(new InputStreamReader(System.in));
C231 t = new C231();
t.solve();
bw.close();
}
public static void main(String[] args) throws IOException {
// InputStream inputStream = new FileInputStream("replaceme.in");
// OutputStream outputStream = new FileOutputStream("replaceme.out");
/////////////////////////////////////////////////////////////////////
InputStream inputStream = System.in;
OutputStream outputStream = System.out;
InputReader in = new InputReader(inputStream);
OutputWriter out = new OutputWriter(outputStream);
Task solver = new Task();
solver.solve(1, in, out);
out.close();
System.exit(0);
}
/** @param args */
public static void main(String[] args) throws Exception {
File file = new File("B-small-practice.in");
if (file.exists()) {
System.setIn(new BufferedInputStream(new FileInputStream(file)));
}
sc = new Scanner(System.in);
FileWriter fw = new FileWriter(new File("output.txt"));
out = new PrintWriter(fw);
Bsmall b = new Bsmall();
int T = sc.nextInt();
int t = 1;
while (t <= T) {
out.print("Case #" + t + ": ");
b.solve();
t++;
}
out.close();
fw.close();
}
public void transform(double[] src, double[] dst) {
if (src.length != dst.length) {
System.err.println("not able to transform point due to dimension error.");
System.exit(1);
} else {
for (int i = 0; i < src.length; i++) {
temp[i] = src[i];
}
temp[src.length] = 1;
for (int i = 0; i < this.row - 1; i++) {
double replacement = 0;
for (int j = 0; j < this.col; j++) {
replacement += temp[j] * this.get(j, i);
}
dst[i] = replacement;
}
}
}
/////// this is to run CA without Vis *********** end from non sensitivty analysis stuff
public static void main(String args[]) {
int maxTS = 1000;
CA3 ca;
System.err.println("# CA version:" + CA3.version);
float SCSymmetricDivBalance = 0.2f;
int maxDivisions = 3;
float densityV = 0.04f;
if (args.length == 4) {
SCSymmetricDivBalance = Float.parseFloat(args[0]);
maxDivisions = Integer.parseInt(args[1]);
maxTS = Integer.parseInt(args[2]);
densityV = Float.parseFloat(args[3]);
System.err.println(
"Balance: " + SCSymmetricDivBalance + " maxDiv: " + maxDivisions + " maxTS: " + maxTS);
} else {
System.err.println("Arguments needed: s/a maxDivisions timesteps, densityV");
System.exit(-1);
}
ca = new CA3(SCSymmetricDivBalance, maxDivisions, densityV);
for (int ts = 0; ts < maxTS; ts++) ca.nextTimeStep();
}
/** @param args */
public static void main(String[] args) throws Exception {
out = System.out;
File file = new File("input.txt");
if (file.exists()) {
System.setIn(new BufferedInputStream(new FileInputStream("input.txt")));
}
sc = new Scanner(System.in);
POJ3109 p = new POJ3109();
while (true) {
try {
N = sc.nextInt();
if (N == 0) {
break;
}
} catch (Exception ex) {
break;
}
p.solve();
}
}
public void rightMultiply(Matrix other) {
// this * other
if (this.col != other.row) {
System.err.println("attempt to multiply incompatible matrices.");
System.exit(1);
} else {
tempCopy();
for (int i = 0; i < tempElements.length; i++) {
for (int j = 0; j < other.col; j++) {
// multiply this row by other col to get replacement elements[i][j]
double replacement = 0;
for (int k = 0; k < tempElements[0].length; k++) {
replacement += tempElements[i][k] * other.get(j, k);
}
this.set(j, i, replacement);
}
}
}
}
public void leftMultiply(Matrix other) {
// other * this
if (other.col != this.row) {
System.err.println("attempt to multiply incompatible matrices.");
System.exit(1);
} else {
tempCopy();
for (int i = 0; i < other.row; i++) {
for (int j = 0; j < tempElements[0].length; j++) {
// multiply other row by this col to get replacement elements[i][j]
double replacement = 0;
for (int k = 0; k < other.col; k++) {
replacement += other.get(k, i) * tempElements[k][j];
}
this.set(j, i, replacement);
}
}
}
}
/* Generates random order times for the orders of each type in the Available state */
private void generateRandomOrderTimes() {
orderTime1 = System.currentTimeMillis() + nextRandomTime(ARRIVAL1) - t0;
orderTime2 = System.currentTimeMillis() + nextRandomTime(ARRIVAL2) - t0;
orderTime3 = System.currentTimeMillis() + nextRandomTime(ARRIVAL2) - t0;
double[] arrivalFrequencies = {ARRIVAL1, ARRIVAL2, ARRIVAL3};
orderTimes.add(System.currentTimeMillis() + nextRandomTime(ARRIVAL1) - t0);
orderTimes.add(System.currentTimeMillis() + nextRandomTime(ARRIVAL2) - t0);
orderTimes.add(System.currentTimeMillis() + nextRandomTime(ARRIVAL3) - t0);
/*for (double counter : arrivalFrequencies) {
System.out.println("t0 is = "+t0+" and current time is "+currentTime);
currentTime=System.currentTimeMillis()-t0;
orderTimes.add(System.currentTimeMillis()+nextRandomTime(counter)-t0);
}*/
}
/** @param args */
public static void main(String[] args) {
FileChannel fc = null;
RandomAccessFile raf = null;
// StringBuilder sb;
if (args.length != 1) {
System.out.println("Usage: Ntfs filename");
System.exit(1);
}
/*
sb = new StringBuilder();
int[] foo = {129,4,229,33};
for (int b: foo) {
sb.insert(0,String.format("%02X", b));
}
System.out.println(sb.toString());
System.exit(0);
*/
try {
raf = new RandomAccessFile(args[0], "r");
fc = raf.getChannel();
Filesystem fs = new Filesystem(fc);
fs.demo();
// fs.displayFs();
} catch (FileNotFoundException x) {
System.out.println("FNF exp: " + x.getMessage());
} catch (IOException x) {
System.out.println("IO exp: " + x.getMessage());
} finally {
if (raf != null)
try {
raf.close();
} catch (IOException e) {
e.printStackTrace(); // To change body of catch statement use File | Settings | File
// Templates.
}
}
}
public class _336_D_Bear_Vasily_and_Beautiful_Strings {
// ->solution screencast http://youtu.be/oHg5SJYRHA0
public void solve() {
int n = ni();
long res = 0;
out.println(res);
}
// IO methods
void run() throws Exception {
long s = System.currentTimeMillis();
solve();
out.flush();
pr(System.currentTimeMillis() - s + "ms");
}
public static void main(String[] args) throws Exception {
new _336_D_Bear_Vasily_and_Beautiful_Strings().run();
}
InputStream in = System.in;
PrintWriter out = new PrintWriter(System.out);
private boolean oj = System.getProperty("ONLINE_JUDGE") != null;
private byte[] inbuf = new byte[1024];
private int lenbuf = 0, ptrbuf = 0;
private int readByte() {
if (lenbuf == -1) throw new InputMismatchException();
if (ptrbuf >= lenbuf) {
ptrbuf = 0;
try {
lenbuf = in.read(inbuf);
} catch (IOException e) {
throw new InputMismatchException();
}
if (lenbuf <= 0) return -1;
}
return inbuf[ptrbuf++];
}
private boolean isSpaceChar(int c) {
return !(c >= 33 && c <= 126);
}
private int skip() {
int b;
while ((b = readByte()) != -1 && isSpaceChar(b)) ;
return b;
}
public String ns() {
int b = skip();
StringBuilder sb = new StringBuilder();
while (!(isSpaceChar(b))) { // when nextLine, (isSpaceChar(b) && b != // ' ')
sb.appendCodePoint(b);
b = readByte();
}
return sb.toString();
}
public char[] ns(int n) {
char[] buf = new char[n];
int b = skip(), p = 0;
while (p < n && !(isSpaceChar(b))) {
buf[p++] = (char) b;
b = readByte();
}
return n == p ? buf : Arrays.copyOf(buf, p);
}
public char[][] nm(int n, int m) {
char[][] map = new char[n][];
for (int i = 0; i < n; i++) map[i] = ns(m);
return map;
}
public int[] na(int n) {
int[] a = new int[n];
for (int i = 0; i < n; i++) a[i] = ni();
return a;
}
public int ni() {
int num = 0, b;
boolean minus = false;
while ((b = readByte()) != -1 && !((b >= '0' && b <= '9') || b == '-')) ;
if (b == '-') {
minus = true;
b = readByte();
}
while (true) {
if (b >= '0' && b <= '9') {
num = num * 10 + (b - '0');
} else {
return minus ? -num : num;
}
b = readByte();
}
}
public long nl() {
long num = 0;
int b;
boolean minus = false;
while ((b = readByte()) != -1 && !((b >= '0' && b <= '9') || b == '-')) ;
if (b == '-') {
minus = true;
b = readByte();
}
while (true) {
if (b >= '0' && b <= '9') {
num = num * 10 + (b - '0');
} else {
return minus ? -num : num;
}
b = readByte();
}
}
void pr(Object... ob) {
if (!oj) System.out.println(Arrays.deepToString(ob).replace("],", "],\n"));
}
}
void run() throws Exception {
long s = System.currentTimeMillis();
solve();
out.flush();
pr(System.currentTimeMillis() - s + "ms");
}
public boolean loadSourceFile(File file) {
boolean result = false;
selectedPath = file.getParent();
BufferedReader sourceFile = null;
String directoryPath = file.getParent();
String sourceName = file.getName();
int idx = sourceName.lastIndexOf(".");
fileExt = idx == -1 ? "" : sourceName.substring(idx + 1);
baseName = idx == -1 ? sourceName.substring(0) : sourceName.substring(0, idx);
String basePath = directoryPath + File.separator + baseName;
DataOptions.directoryPath = directoryPath;
sourcePath = file.getPath();
AssemblerOptions.sourcePath = sourcePath;
AssemblerOptions.listingPath = basePath + ".lst";
AssemblerOptions.objectPath = basePath + ".cd";
String var = System.getenv("ROPE_MACROS_DIR");
if (var != null && !var.isEmpty()) {
File dir = new File(var);
if (dir.exists() && dir.isDirectory()) {
AssemblerOptions.macroPath = var;
} else {
AssemblerOptions.macroPath = directoryPath;
}
} else {
AssemblerOptions.macroPath = directoryPath;
}
DataOptions.inputPath = AssemblerOptions.objectPath;
DataOptions.outputPath = basePath + ".out";
DataOptions.readerPath = null;
DataOptions.punchPath = basePath + ".pch";
DataOptions.tape1Path = basePath + ".mt1";
DataOptions.tape2Path = basePath + ".mt2";
DataOptions.tape3Path = basePath + ".mt3";
DataOptions.tape4Path = basePath + ".mt4";
DataOptions.tape5Path = basePath + ".mt5";
DataOptions.tape6Path = basePath + ".mt6";
this.setTitle("EDIT: " + sourceName);
fileText.setText(sourcePath);
if (dialog == null) {
dialog = new AssemblerDialog(mainFrame, "Assembler options");
Dimension screenSize = Toolkit.getDefaultToolkit().getScreenSize();
Dimension dialogSize = dialog.getSize();
dialog.setLocation(
(screenSize.width - dialogSize.width) / 2, (screenSize.height - dialogSize.height) / 2);
}
dialog.initialize();
AssemblerOptions.command = dialog.buildCommand();
sourceArea.setText(null);
try {
sourceFile = new BufferedReader(new FileReader(file));
String line;
while ((line = sourceFile.readLine()) != null) {
sourceArea.append(line + "\n");
}
sourceArea.setCaretPosition(0);
optionsButton.setEnabled(true);
assembleButton.setEnabled(true);
saveButton.setEnabled(true);
setSourceChanged(false);
undoMgr.discardAllEdits();
result = true;
} catch (IOException ex) {
ex.printStackTrace();
} finally {
try {
if (sourceFile != null) {
sourceFile.close();
}
} catch (IOException ignore) {
}
}
return result;
}