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#include "includes.h"
hotString* hotString::pHotStrings=NULL;
int hotString::numHotStrings=0;
WString hotString::hsBuffer;
int hotString::bufferLen=0;
long hotString::lastFocusPtr=0;
// load all hotstrings from file
void hotString::loadHotStrings(){
// in a first pass, just rush through the file and count the number of hotstrings
FILE* pFile;
int i;
char buffer;
wchar unibuffer;
#define FGETUC(pbuf,pfile) fread(pbuf,sizeof(wchar),1,pfile)
numHotStrings=0;
bool valueEnd;
pFile = fopen(SRCPATH "hotstrings.txt", "rb");
if (pFile==NULL) {PromptOK("Can't read hotstrings.txt"); exit(1);}
fgetc(pFile); // skip BOM
fgetc(pFile);
while(!feof(pFile)){
FGETUC(&unibuffer,pFile); // read identifier
if( unibuffer>=97 && unibuffer<=122 ){
FGETUC(&unibuffer,pFile); // read =
FGETUC(&unibuffer,pFile); // read "
valueEnd=false;
while(!valueEnd){
FGETUC(&unibuffer,pFile);
if(unibuffer==34){valueEnd=true;} // read " -> end of value
if(unibuffer==92){FGETUC(&unibuffer,pFile);} // read \ -> skip next character
}
FGETUC(&unibuffer,pFile); // read separator
if(unibuffer==13){ // line break -> entry complete
numHotStrings++;
FGETUC(&unibuffer,pFile); // read chr10
}
}
}
// now allocate as much memory as needed
pHotStrings = new hotString[numHotStrings];
// now go through in a second pass and store hotstrings
int iEntry=0;
rewind(pFile);
fgetc(pFile); // skip BOM
fgetc(pFile);
WString* pTarget=NULL;
fpos_t valueStart;
int valueLength;
bool isH;
while(!feof(pFile)){
FGETUC(&unibuffer,pFile); // read identifier
if(feof(pFile)){break;} // sometimes the first feof didnt indicate the end, so check again after read operatio
isH=false;
switch(unibuffer){
case 'h':
case 'H':
pTarget=&(hotString::pHotStrings[iEntry].hs);
isH=true;
break;
case 'c':
case 'C':
pTarget=&(hotString::pHotStrings[iEntry].winClass);
break;
case 't':
case 'T':
pTarget=&(hotString::pHotStrings[iEntry].winTitle);
break;
case 's':
case 'S':
pTarget=&(hotString::pHotStrings[iEntry].value);
hotString::pHotStrings[iEntry].launch=false;
break;
case 'l':
case 'L':
pTarget=&(hotString::pHotStrings[iEntry].value);
hotString::pHotStrings[iEntry].launch=true;
break;
default:
PromptOK("Error parsing hotstrings.txt: unknown element"); exit(1);
}
FGETUC(&unibuffer,pFile); // read =
FGETUC(&unibuffer,pFile); // read "
fgetpos(pFile, &valueStart);
// read value first to determine its length, then again and store
valueEnd=false;
valueLength=0;
while(!valueEnd){
FGETUC(&unibuffer,pFile);
if(unibuffer==34){ // read " -> end of value
valueEnd=true;
}
else{
if(unibuffer==92){ // read \ -> dont check next character
FGETUC(&unibuffer,pFile);
valueLength++;
}
else{ // increase number of chars
valueLength++;
}
}
}
if(isH && valueLength>bufferLen){
bufferLen=valueLength;
}
*pTarget = WString(0,valueLength);
fsetpos(pFile, &valueStart);
for(i=0;i<valueLength;i++){
FGETUC(&unibuffer,pFile);
if(unibuffer==92){FGETUC(&unibuffer,pFile);} // read \ -> skip to next character
pTarget->Set(i,unibuffer);
}
FGETUC(&unibuffer,pFile); // read "
FGETUC(&unibuffer,pFile); // read separator
if(unibuffer==13){ // line break -> entry complete
LOGG("Read hotstring: hs=");LOGG(pHotStrings[iEntry].hs);
LOGG(" winTitle=");LOGG(pHotStrings[iEntry].winTitle);
LOGG(" winClass=");LOGG(pHotStrings[iEntry].winClass);
LOGG(" value=");LOGG(pHotStrings[iEntry].value);LOGGNL;
iEntry++;
FGETUC(&unibuffer,pFile); // read chr10
}
}
fclose(pFile);
// create log buffer as long as the longest hotstring
hsBuffer = WString(0,bufferLen);
// sort list
qsort(pHotStrings,numHotStrings,sizeof(hotString),compareHotStrings);
}
// compare the hotstringbuffer to all hotstrings and fire if there is a match
// to be more efficient, this could be done using a trie
// however, c++ takes very few time to compare thousands of strings, so this was
// not considered necessary
void hotString::checkHotStrings(){
int i,k;
bool hit;
for(i=0;i<numHotStrings;i++){
if(pHotStrings[i].hs.IsEqual(hsBuffer.Right(pHotStrings[i].hs.GetLength()))){ // current hotstring matches typed letters
hit=false;
if(pHotStrings[i].winClass.IsEmpty() && pHotStrings[i].winTitle.IsEmpty()){ // no further conditions, send
hit=true;
}
else{ // check if focus object class and foreground window title match
WString wt,oc;
getFocusInfo(oc,wt);
if( (pHotStrings[i].winClass.IsEmpty() || pHotStrings[i].winClass.IsEqual(oc))
&& (pHotStrings[i].winTitle.IsEmpty() || wt.Find(pHotStrings[i].winTitle)>-1) ){ // ok, everything matches, fire!
hit=true;
}
}
if(hit){
for(k=0;k<pHotStrings[i].hs.GetLength();k++){ // backspaces to delete the typement
KeyBuddy2::SendUNIKey(0xF008,false,HOTSTRING);
KeyBuddy2::SendUNIKey(0xF008,true,HOTSTRING);
}
if(!pHotStrings[i].launch){ // send string
for(k=0;k<pHotStrings[i].value.GetLength();k++){
KeyBuddy2::SendUNIKey(pHotStrings[i].value[k],false,HOTSTRING);
KeyBuddy2::SendUNIKey(pHotStrings[i].value[k],true,HOTSTRING);
}
break;
clearBuffer();
}
else{ // launch program
WString cmd=pHotStrings[i].value;
WString path,exe,params;
int delim1=-2,delim2=-2;
delim1=cmd.Find("|");
if(delim1==-1){
path="";
exe=cmd;
params="";
}
else{
delim2=cmd.Find("|",delim1+1);
if(delim2==-1){
path=cmd.Left(delim1);
exe=cmd.Mid(delim1+1);;
params="";
}
else{
path=cmd.Left(delim1);
exe=cmd.Mid(delim1+1,delim2-delim1-1);
params=cmd.Mid(delim2+1);
}
}
ShellExecuteW( NULL, NULL, exe, params, path, SW_SHOWNORMAL );
LOGG("working directory: ");LOGG(path);LOGGNL;
LOGG("exe: ");LOGG(exe);LOGGNL;
LOGG("params: ");LOGG(params);LOGGNL;
}
}
}
}
}
long hotString::getFocusWindowPtr(){
DWORD unused;
long myThread=GetWindowThreadProcessId(KeyBuddy2::pKB2->GetHWND(),&unused);
long otherThread=GetWindowThreadProcessId(GetForegroundWindow(),&unused);
if(myThread!=otherThread){
AttachThreadInput(otherThread,myThread,true);
}
long result=(long)GetFocus();
if(myThread!=otherThread){
AttachThreadInput(otherThread,myThread,false);
}
return result;
}
void hotString::getFocusInfo(WString& objectClass, WString& parentTitle){
char buffer[256];
GetClassName((HWND)getFocusWindowPtr(),buffer,255);
objectClass=WString(buffer);
GetWindowText(GetForegroundWindow(),buffer,255);
parentTitle=WString(buffer);
}
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