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Arduino/app/Compiler.java

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/*
Compiler - default compiler class that connects to the external compiler
Part of the Arduino project - http://arduino.berlios.de
Derived from the Processing project - http://processing.org
Copyleft 2005 Massimo Banzi (arduino modifications)
Copyright (c) 2004-05 Ben Fry and Casey Reas
Copyright (c) 2001-04 Massachusetts Institute of Technology
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package processing.app;
import java.io.*;
import java.util.*;
import java.util.zip.*;
import javax.swing.*;
public class Compiler implements MessageConsumer {
static final String BUGS_URL = "http://arduino.berlios.de";
static final String SUPER_BADNESS = "Compiler error, please submit this code to " + BUGS_URL;
Sketch sketch;
String buildPath;
//String buildPath;
//String className;
//File includeFolder;
RunnerException exception;
//Editor editor;
/*
public Compiler(String buildPath, String className,
File includeFolder, Editor editor) {
this.buildPath = buildPath;
this.includeFolder = includeFolder;
this.className = className;
this.editor = editor;
}
public boolean compile(PrintStream leechErr) {
*/
public Compiler() { } // null constructor
public boolean compile(Sketch sketch, String buildPath)
throws RunnerException {
this.sketch = sketch;
this.buildPath = buildPath;
// the pms object isn't used for anything but storage
MessageStream pms = new MessageStream(this);
String userdir = System.getProperty("user.dir") + File.separator;
System.out.println("Compiling Arduino program");
Process process;
String commandLine = "";
//TODO test this in windows
// FIXME: this is really nasty, it seems that MACOS is making the
// compilation inside the lib folder, while windows is doing it
// inside the work folder ... why why why --DojoDave
if (Base.isWindows()) {
commandLine = userdir + "tools\\gnumake.exe -C " + userdir + ". compile";
} else if (Base.isMacOS()) {
commandLine = userdir + "tools/gnumake -C " + userdir + "lib compile";
}
int result = 0;
try {
// System.out.println(commandLine);
process = Runtime.getRuntime().exec(commandLine);
new MessageSiphon(process.getInputStream(), this);
new MessageSiphon(process.getErrorStream(), this);
boolean compiling = true;
while (compiling) {
try {
result = process.waitFor();
compiling = false;
} catch (InterruptedException ignored) { }
}
} catch (Exception e) {
e.printStackTrace();
System.out.println("Error: GNUMake probably couldn't be found");
result = 99;
}
if(0 == result){
System.out.println("Arduino Compilation Successful");
}else{
System.out.println("Arduino Compilation Unsuccessful (error: " + result + ")");
}
return (result == 0);
}
boolean firstErrorFound;
boolean secondErrorFound;
/**
* Part of the MessageConsumer interface, this is called
* whenever a piece (usually a line) of error message is spewed
* out from the compiler. The errors are parsed for their contents
* and line number, which is then reported back to Editor.
* In Arduino v1 this is very very crude
*/
public void message(String s) {
// This receives messages as full lines, so a newline needs
// to be added as they're printed to the console.
//System.out.print(s);
//if ((s.indexOf("warning:") != -1) && (s.indexOf("prog.c:") != -1) ) {
// String[] result = s.split(":");
// for (int x=0; x<result.length; x++)
// System.out.println(x + " " +result[x]);
// //System.out.print(s);
// //totalErrors++;
//}
if (((s.indexOf("error:") != -1) || (s.indexOf("warning:") != -1)) && (s.indexOf("prog.c:") != -1) ) {
String[] result = s.split(":");
// 0 = prog.c
// 1 = line number
// 2 = error or warning
// 3 = message
// TODO put the length of the header file into a Preference!!!
//if ((s.indexOf("(Each undeclared") == 0) && (s.indexOf("for each function it appears in") == 0)) {
int lineNum = Integer.parseInt(result[1]) - 15;
System.out.print( result[2] + " at line " + lineNum + " " + result[3]);
//}
}
}
public void processing_message(String s) {
// ignore cautions
if (s.indexOf("Caution") != -1) return;
// jikes always uses a forward slash character as its separator,
// so replace any platform-specific separator characters before
// attemping to compare
//
String buildPathSubst = buildPath.replace(File.separatorChar, '/') + "/";
String partialTempPath = null;
int partialStartIndex = -1; //s.indexOf(partialTempPath);
int fileIndex = -1; // use this to build a better exception
// iterate through the project files to see who's causing the trouble
for (int i = 0; i < sketch.codeCount; i++) {
if (sketch.code[i].preprocName == null) continue;
partialTempPath = buildPathSubst + sketch.code[i].preprocName;
partialStartIndex = s.indexOf(partialTempPath);
if (partialStartIndex != -1) {
fileIndex = i;
//System.out.println("fileIndex is " + fileIndex);
break;
}
}
//+ className + ".java";
// if the partial temp path appears in the error message...
//
//int partialStartIndex = s.indexOf(partialTempPath);
if (partialStartIndex != -1) {
// skip past the path and parse the int after the first colon
//
String s1 = s.substring(partialStartIndex +
partialTempPath.length() + 1);
int colon = s1.indexOf(':');
int lineNumber = Integer.parseInt(s1.substring(0, colon));
//System.out.println("pde / line number: " + lineNumber);
if (fileIndex == 0) { // main class, figure out which tab
for (int i = 1; i < sketch.codeCount; i++) {
if (sketch.code[i].flavor == Sketch.PDE) {
if (sketch.code[i].preprocOffset < lineNumber) {
fileIndex = i;
//System.out.println("i'm thinkin file " + i);
}
}
}
if (fileIndex != 0) { // if found another culprit
lineNumber -= sketch.code[fileIndex].preprocOffset;
//System.out.println("i'm sayin line " + lineNumber);
}
}
//String s2 = s1.substring(colon + 2);
int err = s1.indexOf("Error:");
if (err != -1) {
// if the first error has already been found, then this must be
// (at least) the second error found
if (firstErrorFound) {
secondErrorFound = true;
return;
}
// if executing at this point, this is *at least* the first error
firstErrorFound = true;
//err += "error:".length();
String description = s1.substring(err + "Error:".length());
description = description.trim();
String hasLoop = "The method \"void loop();\" with default access";
if (description.indexOf(hasLoop) != -1) {
description =
"Rename loop() to draw() in Processing 0070 and higher";
}
String constructorProblem =
"No applicable overload was found for a constructor of type";
if (description.indexOf(constructorProblem) != -1) {
//"simong.particles.ParticleSystem". Perhaps you wanted the overloaded version "ParticleSystem();" instead?
int nextSentence = description.indexOf("\".") + 3;
description = description.substring(nextSentence);
}
String overloadProblem = "No applicable overload";
if (description.indexOf(overloadProblem) != -1) {
int nextSentence = description.indexOf("\".") + 3;
description = description.substring(nextSentence);
}
// c:/fry/processing/build/windows/work/lib/build/Temporary_6858_2476.java:1:34:1:41: Semantic Error: You need to modify your classpath, sourcepath, bootclasspath, and/or extdirs setup. Package "poo/shoe" could not be found in:
String classpathProblem = "You need to modify your classpath";
if (description.indexOf(classpathProblem) != -1) {
if (description.indexOf("quicktime/std") != -1) {
// special case for the quicktime libraries
description =
"To run sketches that use the Processing video library, " +
"you must first install QuickTime for Java.";
} else {
int nextSentence = description.indexOf(". Package") + 2;
description =
description.substring(nextSentence, description.indexOf(':')) +
" the code folder or in any libraries.";
}
}
//System.out.println("description = " + description);
//System.out.println("creating exception " + exception);
exception = new RunnerException(description, fileIndex, lineNumber-1, -1);
// NOTE!! major change here, this exception will be queued
// here to be thrown by the compile() function
//editor.error(exception);
} else {
System.err.println("i suck: " + s);
}
} else {
// this isn't the start of an error line, so don't attempt to parse
// a line number out of it.
// if the second error hasn't been discovered yet, these lines
// are probably associated with the first error message,
// which is already in the status bar, and are likely to be
// of interest to the user, so spit them to the console.
//
if (!secondErrorFound) {
System.err.println(s);
}
}
}
/*
static String bootClassPath;
static public String calcBootClassPath() {
if (bootClassPath == null) {
String additional = "";
if (Base.isMacOS()) {
additional =
contentsToClassPath(new File("/System/Library/Java/Extensions/"));
}
bootClassPath = System.getProperty("sun.boot.class.path") + additional;
}
return bootClassPath;
}
*/
///
/**
* Return the path for a folder, with appended paths to
* any .jar or .zip files inside that folder.
* This will prepend a colon (or whatever the path separator is)
* so that it can be directly appended to another path string.
*
* This will always add the root folder as well, and doesn't bother
* checking to see if there are any .class files in the folder or
* within a subfolder.
*/
static public String contentsToClassPath(File folder) {
if (folder == null) return "";
StringBuffer abuffer = new StringBuffer();
String sep = System.getProperty("path.separator");
try {
// add the folder itself in case any unzipped files
String path = folder.getCanonicalPath();
abuffer.append(sep);
abuffer.append(path);
if (!path.endsWith(File.separator)) {
path += File.separator;
}
//System.out.println("path is " + path);
String list[] = folder.list();
for (int i = 0; i < list.length; i++) {
if (list[i].toLowerCase().endsWith(".jar") ||
list[i].toLowerCase().endsWith(".zip")) {
abuffer.append(sep);
abuffer.append(path);
abuffer.append(list[i]);
}
}
} catch (IOException e) {
e.printStackTrace(); // this would be odd
}
//System.out.println("included path is " + abuffer.toString());
//packageListFromClassPath(abuffer.toString()); // WHY?
return abuffer.toString();
}
/**
* A classpath, separated by the path separator, will contain
* a series of .jar/.zip files or directories containing .class
* files, or containing subdirectories that have .class files.
*
* @param path the input classpath
* @return array of possible package names
*/
static public String[] packageListFromClassPath(String path) {
Hashtable table = new Hashtable();
String pieces[] =
Base.split(path, File.pathSeparatorChar);
for (int i = 0; i < pieces.length; i++) {
//System.out.println("checking piece '" + pieces[i] + "'");
if (pieces[i].length() == 0) continue;
if (pieces[i].toLowerCase().endsWith(".jar") ||
pieces[i].toLowerCase().endsWith(".zip")) {
packageListFromZip(pieces[i], table);
} else { // it's another type of file or directory
File dir = new File(pieces[i]);
if (dir.exists() && dir.isDirectory()) {
packageListFromFolder(dir, null, table);
//importCount = magicImportsRecursive(dir, null,
// table);
//imports, importCount);
}
}
}
int tableCount = table.size();
String output[] = new String[tableCount];
int index = 0;
Enumeration e = table.keys();
while (e.hasMoreElements()) {
output[index++] = ((String) e.nextElement()).replace('/', '.');
}
//System.arraycopy(imports, 0, output, 0, importCount);
//PApplet.printarr(output);
return output;
}
static private void packageListFromZip(String filename, Hashtable table) {
try {
ZipFile file = new ZipFile(filename);
Enumeration entries = file.entries();
while (entries.hasMoreElements()) {
ZipEntry entry = (ZipEntry) entries.nextElement();
if (!entry.isDirectory()) {
String name = entry.getName();
if (name.endsWith(".class")) {
int slash = name.lastIndexOf('/');
if (slash == -1) continue;
String pname = name.substring(0, slash);
if (table.get(pname) == null) {
table.put(pname, new Object());
}
}
}
}
} catch (IOException e) {
System.err.println("Ignoring " + filename + " (" + e.getMessage() + ")");
//e.printStackTrace();
}
}
/**
* Make list of package names by traversing a directory hierarchy.
* Each time a class is found in a folder, add its containing set
* of folders to the package list. If another folder is found,
* walk down into that folder and continue.
*/
static private void packageListFromFolder(File dir, String sofar,
Hashtable table) {
//String imports[],
//int importCount) {
//System.err.println("checking dir '" + dir + "'");
boolean foundClass = false;
String files[] = dir.list();
for (int i = 0; i < files.length; i++) {
if (files[i].equals(".") || files[i].equals("..")) continue;
File sub = new File(dir, files[i]);
if (sub.isDirectory()) {
String nowfar =
(sofar == null) ? files[i] : (sofar + "." + files[i]);
packageListFromFolder(sub, nowfar, table);
//System.out.println(nowfar);
//imports[importCount++] = nowfar;
//importCount = magicImportsRecursive(sub, nowfar,
// imports, importCount);
} else if (!foundClass) { // if no classes found in this folder yet
if (files[i].endsWith(".class")) {
//System.out.println("unique class: " + files[i] + " for " + sofar);
table.put(sofar, new Object());
foundClass = true;
}
}
}
//return importCount;
}
/*
static public int magicImportsRecursive(File dir, String sofar,
Hashtable table) {
//String imports[],
//int importCount) {
System.err.println("checking dir '" + dir + "'");
String files[] = dir.list();
for (int i = 0; i < files.length; i++) {
if (files[i].equals(".") || files[i].equals("..")) continue;
File sub = new File(dir, files[i]);
if (sub.isDirectory()) {
String nowfar = (sofar == null) ?
files[i] : (sofar + "." + files[i]);
//System.out.println(nowfar);
imports[importCount++] = nowfar;
importCount = magicImportsRecursive(sub, nowfar,
imports, importCount);
}
}
return importCount;
}
*/
}
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