#include "MultiFileAllocationIterator.h"
#include "File.h"
#include "MultiDiskAdaptor.h"
#include "FileEntry.h"
#include "Exception.h"
#include "array_fun.h"
#include <algorithm>
#include <iostream>
#include <cppunit/extensions/HelperMacros.h>

namespace aria2 {

class MultiFileAllocationIteratorTest:public CppUnit::TestFixture {

  CPPUNIT_TEST_SUITE(MultiFileAllocationIteratorTest);
  CPPUNIT_TEST(testAllocate);
  CPPUNIT_TEST(testMakeDiskWriterEntries);
  CPPUNIT_TEST_SUITE_END();
private:

public:
  void setUp() {}

  void testAllocate();
  void testMakeDiskWriterEntries();
};


CPPUNIT_TEST_SUITE_REGISTRATION( MultiFileAllocationIteratorTest );

void MultiFileAllocationIteratorTest::testMakeDiskWriterEntries()
{
  SharedHandle<FileEntry> fs[] = {
    SharedHandle<FileEntry>(new FileEntry("file1", 1536, 0)),
    SharedHandle<FileEntry>(new FileEntry("file2", 2048, 1536)),// req no
    SharedHandle<FileEntry>(new FileEntry("file3", 1024, 3584)),
    SharedHandle<FileEntry>(new FileEntry("file4", 1024, 4608)),// req no
    SharedHandle<FileEntry>(new FileEntry("file5", 1024, 5632)),// req no
    SharedHandle<FileEntry>(new FileEntry("file6", 1024, 6656)),// req no
    SharedHandle<FileEntry>(new FileEntry("file7",  256, 7680)),// req no
    SharedHandle<FileEntry>(new FileEntry("file8",  255, 7936)),
    SharedHandle<FileEntry>(new FileEntry("file9", 1025, 8191)),// req no
    SharedHandle<FileEntry>(new FileEntry("fileA", 1024, 9216)),// req no
    SharedHandle<FileEntry>(new FileEntry("fileB", 1024, 10240)),
  };
  fs[1]->setRequested(false); // file2
  fs[3]->setRequested(false); // file4
  fs[4]->setRequested(false); // file5
  fs[5]->setRequested(false); // file6
  fs[6]->setRequested(false); // file7
  fs[8]->setRequested(false); // file9
  fs[9]->setRequested(false); // fileA
  
  std::string storeDir = "/tmp/aria2_MultiFileAllocationIteratorTest_testMakeDiskWriterEntries";
  SharedHandle<MultiDiskAdaptor> diskAdaptor(new MultiDiskAdaptor());
  diskAdaptor->setFileEntries(std::deque<SharedHandle<FileEntry> >(&fs[0], &fs[arrayLength(fs)]));
  diskAdaptor->setPieceLength(1024);
  diskAdaptor->setStoreDir(storeDir);
  diskAdaptor->openFile();

  SharedHandle<MultiFileAllocationIterator> itr
    (dynamic_pointer_cast<MultiFileAllocationIterator>(diskAdaptor->fileAllocationIterator()));

  DiskWriterEntries entries = itr->getDiskWriterEntries();

  std::sort(entries.begin(), entries.end());

  CPPUNIT_ASSERT_EQUAL((size_t)8, entries.size());

  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file1"), entries[0]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file2"), entries[1]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file3"), entries[2]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file6"), entries[3]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file7"), entries[4]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file8"), entries[5]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/file9"), entries[6]->getFilePath(storeDir));
  CPPUNIT_ASSERT_EQUAL(storeDir+std::string("/fileB"), entries[7]->getFilePath(storeDir));
}

void MultiFileAllocationIteratorTest::testAllocate()
{
  std::string dir = "/tmp";
  std::string topDir = "aria2_MultiFileAllocationIteratorTest_testAllocate";
  std::string fname1 = "file1";
  std::string fname2 = "file2";
  std::string fname3 = "file3";
  std::string fname4 = "file4";
  std::string fname5 = "file5";
  std::string fname6 = "file6";
  int64_t length1 = 32769;
  int64_t length2 = 0;
  int64_t length3 = 8;
  int64_t length4 = 10;
  int64_t length5 = 20;
  int64_t length6 = 30;

  try {
    SharedHandle<MultiDiskAdaptor> diskAdaptor(new MultiDiskAdaptor());
    diskAdaptor->setStoreDir(dir);
    diskAdaptor->setTopDir(topDir);

    int64_t offset = 0;
    SharedHandle<FileEntry> fileEntry1(new FileEntry(fname1,
						     length1,
						     offset));
    offset += length1;
    SharedHandle<FileEntry> fileEntry2(new FileEntry(fname2,
						     length2,
						     offset));

    offset += length2;
    SharedHandle<FileEntry> fileEntry3(new FileEntry(fname3,
						     length3,
						     offset));

    offset += length3;
    SharedHandle<FileEntry> fileEntry4(new FileEntry(fname4,
						     length4,
						     offset));
    fileEntry4->setRequested(false);

    offset += length4;
    SharedHandle<FileEntry> fileEntry5(new FileEntry(fname5,
						     length5,
						     offset));

    offset += length5;
    SharedHandle<FileEntry> fileEntry6(new FileEntry(fname6,
						     length6,
						     offset));
    fileEntry6->setRequested(false);

    std::deque<SharedHandle<FileEntry> > fs;
    fs.push_back(fileEntry1);
    fs.push_back(fileEntry2);
    fs.push_back(fileEntry3);
    fs.push_back(fileEntry4);
    fs.push_back(fileEntry5);
    fs.push_back(fileEntry6);
    diskAdaptor->setFileEntries(fs);

    // we have to open file first.
    diskAdaptor->initAndOpenFile();
    SharedHandle<MultiFileAllocationIterator> itr
      (dynamic_pointer_cast<MultiFileAllocationIterator>(diskAdaptor->fileAllocationIterator()));
    while(!itr->finished()) {
      itr->allocateChunk();
    }
    CPPUNIT_ASSERT_EQUAL((uint64_t)length1, File(dir+"/"+topDir+"/"+fname1).size());
    CPPUNIT_ASSERT_EQUAL((uint64_t)length2, File(dir+"/"+topDir+"/"+fname2).size());
    CPPUNIT_ASSERT_EQUAL((uint64_t)length3, File(dir+"/"+topDir+"/"+fname3).size());
    CPPUNIT_ASSERT(!File(dir+"/"+topDir+"/"+fname4).isFile());

    CPPUNIT_ASSERT_EQUAL((uint64_t)length5, File(dir+"/"+topDir+"/"+fname5).size());
    CPPUNIT_ASSERT(!File(dir+"/"+topDir+"/"+fname6).isFile());

  } catch(Exception& e) {
    CPPUNIT_FAIL(e.stackTrace());
  }
}

} // namespace aria2