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// Compression on variable granularity
#include <fcntl.h>
#include <iostream>
#include <fstream>
#include <string>
#ifndef __GNUC__
#include <io.h>
#else
#include <unistd.h>
#endif
//#include <ztext.h>
#include <ztext2.h>
//#include <zld.h>
//#include <zcom.h>
#include <swmgr.h>
#include <lzsscomprs.h>
#include <zipcomprs.h>
#include <versekey.h>
#include <versekey2.h>
#include <stdio.h>
#include <cipherfil.h>
#ifndef NO_SWORD_NAMESPACE
using sword::SWCompress;
using sword::CipherFilter;
using sword::SWModule;
using sword::SWMgr;
using sword::ModMap;
using sword::zText2;
//using sword::zLD;
//using sword::zCom;
using sword::SWFilter;
using sword::VerseKey2;
using sword::VerseKey;
using sword::SWKey;
using sword::SW_POSITION;
using sword::ZipCompress;
using sword::LZSSCompress;
#endif
using std::cerr;
using std::string;
using std::cout;
using std::endl;
void errorOutHelp(char *appName) {
cerr << appName << " - a tool to create compressed Sword modules\n";
cerr << "version 0.1\n\n";
cerr << "usage: "<< appName << " <modname> <datapath> [blockType [blockNum [compressType [cipherKey]]]]\n\n";
cerr << "datapath: the directory in which to write the zModule\n";
cerr << "blockType : (default 4)\n\t2 - verses\n\t3 - chapters\n\t4 - books\n";
cerr << "blockNum : (default 1)\n\tnumber of blockType per block\n";
cerr << "compressType: (default 1):\n\t1 - LZSS\n\t2 - Zip\n";
cerr << "\n\n";
exit(-1);
}
int main(int argc, char **argv)
{
int iType = 4;
int iPerBlock = 1;
int compType = 1;
string cipherKey = "";
SWCompress *compressor = 0;
SWModule *inModule = 0;
SWModule *outModule = 0;
if ((argc < 3) || (argc > 6)) {
errorOutHelp(argv[0]);
}
if (argc > 3) {
iType = atoi(argv[3]);
if (argc > 4) {
iPerBlock = atoi(argv[4]);
if (argc > 5) {
compType = atoi(argv[5]);
if (argc > 6) {
cipherKey = argv[6];
}
}
}
}
if ((iType < 2) || (iType > 5) || (iPerBlock < 1) || (compType < 1) || (compType > 2) || (!strcmp(argv[1], "-h")) ||
(!strcmp(argv[1], "--help")) || (!strcmp(argv[1], "/?")) || (!strcmp(argv[1], "-?")) || (!strcmp(argv[1], "-help"))) {
errorOutHelp(argv[0]);
}
SWMgr mgr;
ModMap::iterator it = mgr.Modules.find(argv[1]);
if (it == mgr.Modules.end()) {
fprintf(stderr, "error: %s: couldn't find module: %s \n", argv[0], argv[1]);
exit(-2);
}
inModule = it->second;
// Try to initialize a default set of datafiles and indicies at our
// datapath location passed to us from the user.
#define BIBLE 1
#define LEX 2
#define COM 3
int modType = 0;
if (!strcmp(inModule->Type(), "Biblical Texts")) modType = BIBLE;
if (!strcmp(inModule->Type(), "Lexicons / Dictionaries")) modType = LEX;
if (!strcmp(inModule->Type(), "Commentaries")) modType = COM;
switch (compType) { // these are deleted by zText
case 1: compressor = new LZSSCompress(); break;
case 2: compressor = new ZipCompress(); break;
}
cout << "Creating module " << argv[2] << endl;
int result = 1;
switch (modType) {
case BIBLE:
result = zText2::createModule(argv[2], iType);
break;
case LEX:
//result = zLD::createModule(argv[2]);
result = 1;
break;
case COM:
result = zText2::createModule(argv[2], iType);
break;
}
if (result) {
fprintf(stderr, "error: %s: couldn't create module at path: %s \n", argv[0], argv[2]);
exit(-3);
}
cout << "Opening datapath with driver " << argv[2] << " Type " << iType << " PerBlock " << iPerBlock << endl;
switch (modType) {
case BIBLE:
outModule = new zText2(argv[2], 0, 0, iType, iPerBlock, compressor); // open our datapath with our RawText driver.
((VerseKey *)(SWKey *)(*inModule))->Headings(1);
break;
case LEX:
//outModule = new zLD(argv[2], 0, 0, iType, compressor); // open our datapath with our RawText driver.
break;
case COM:
outModule = new zText2(argv[2], 0, 0, iType, iPerBlock, compressor); // open our datapath with our RawText driver.
((VerseKey *)(SWKey *)(*inModule))->Headings(1);
break;
}
SWFilter *cipherFilter = 0;
if (!cipherKey.empty()) {
cipherFilter = new CipherFilter(cipherKey.c_str());
outModule->AddRawFilter(cipherFilter);
}
string lastBuffer = "Something that would never be first module entry";
SWKey bufferKey;
SWKey lastBufferKey;
SWKey *outModuleKey = outModule->CreateKey();
VerseKey2 *vkey = SWDYNAMIC_CAST(VerseKey2, outModuleKey);
outModuleKey->Persist(1);
if (vkey) {
vkey->Headings(1);
vkey->AutoNormalize(0);
}
outModule->setKey(*outModuleKey);
inModule->setSkipConsecutiveLinks(false);
(*inModule) = TOP;
while (!inModule->Error()) {
bufferKey = *(SWKey *)(*inModule);
cout << bufferKey << endl;
// pseudo-check for link. Will get most common links.
if ((lastBuffer == inModule->getRawEntry()) &&(lastBuffer.length() > 0)) {
*outModuleKey = bufferKey;
outModule->linkEntry(&lastBufferKey); // link to last key
//cout << "Adding [" << bufferKey << "] link to: [" << lastBufferKey << "]\n";
}
else {
lastBuffer = inModule->getRawEntry();
lastBufferKey = inModule->KeyText();
if (lastBuffer.length() > 0) {
//cout << "Adding [" << bufferKey << "] new text. \n";
*outModuleKey = bufferKey;
// outModule->getRawEntry(); // snap
// outModule->setKey(bufferKey);
(*outModule) << lastBuffer.c_str(); // save new text;
}
else {
cout << "Skipping [" << bufferKey << "] no entry in inModule. \n";
}
}
(*inModule)++;
}
delete outModule;
delete outModuleKey;
if (cipherFilter)
delete cipherFilter;
}
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