During our compiler's intermediate code generation phase, and more specifically while testing the arithmetic expressions and assignment rules, I noticed that although the respective quads are constructed successfully, when printing them out sometimes we'll get a bad_alloc exception. After tracing it, it looks like it's cause by the printQuads() method and specifically the following string access of key:
if(q.result != nullptr && q.result->sym != nullptr) {
cout << "quad " << opcodeStrings[q.op] << " inside if key check for" << opcodeStrings[q.op] << endl;
resultKey = q.result->sym->key;
}
I'll try to include the code that's relevant instead of dumping 500 lines of code here.
So, below you can see our assignmentexpr and basic arithmetic expression rules and actions:
expr: assignexpr
| expr PLUS expr
{
bool isExpr1Arithm = check_arith($1);
bool isExpr2Arithm = check_arith($3);
if(!isExpr1Arithm || !isExpr2Arithm)
{
//string msg = !isExpr1Arithm ? "First operand isn\'t a number in addition!" : "Second operand isn\'t a number in addition!";
yyerror(token_node, "Both addition operands must be numbers!");
} else
{
double result = $1->numConst + $3->numConst;
$$ = newexpr(arithmetic_e);
$$->sym = newtemp(scope);
$$->numConst = result;
emit(add, $1, $3, $$, nextquadlabel(), yylineno);
}
}
| expr MIN expr
{
bool isExpr1Arithm = check_arith($1);
bool isExpr2Arithm = check_arith($3);
if(!isExpr1Arithm || !isExpr2Arithm)
{
//string msg = !isExpr1Arithm ? "First operand isn\'t a number in subtraction!" : "Second operand isn\'t a number in subtracion!";
yyerror(token_node, "Both suctraction operands must be numbers!");
} else
{
double result = $1->numConst - $3->numConst;
$$ = newexpr(arithmetic_e);
$$->sym = newtemp(scope);
$$->numConst = result;
emit(sub, $1, $3, $$, nextquadlabel(), yylineno);
}
}
| expr MUL expr
{
bool isExpr1Arithm = check_arith($1);
bool isExpr2Arithm = check_arith($3);
if(!isExpr1Arithm || !isExpr2Arithm)
{
//string msg = !isExpr1Arithm ? "First operand isn\'t a number in subtraction!" : "Second operand isn\'t a number in subtracion!";
yyerror(token_node, "Both multiplication operands must be numbers!");
} else
{
double result = $1->numConst * $3->numConst;
$$ = newexpr(arithmetic_e);
$$->sym = newtemp(scope);
$$->numConst = result;
emit(mul, $1, $3, $$, nextquadlabel(), yylineno);
}
}
| expr DIV expr
{
bool isExpr1Arithm = check_arith($1);
bool isExpr2Arithm = check_arith($3);
if(!isExpr1Arithm || !isExpr2Arithm)
{
//string msg = !isExpr1Arithm ? "First operand isn\'t a number in subtraction!" : "Second operand isn\'t a number in subtracion!";
yyerror(token_node, "Both division operands must be numbers!");
} else
{
if($3->numConst == 0) {
yyerror(token_node, "division by 0!");
} else {
double result = $1->numConst / $3->numConst;
$$ = newexpr(arithmetic_e);
$$->sym = newtemp(scope);
$$->numConst = result;
emit(div_op, $1, $3, $$, nextquadlabel(), yylineno);
}
}
}
| expr MOD expr
{
bool isExpr1Arithm = check_arith($1);
bool isExpr2Arithm = check_arith($3);
if(!isExpr1Arithm || !isExpr2Arithm)
{
//string msg = !isExpr1Arithm ? "First operand isn\'t a number in subtraction!" : "Second operand isn\'t a number in subtracion!";
yyerror(token_node, "Both modulus operands must be numbers!");
} else
{
if($3->numConst == 0) {
yyerror(token_node, "division by 0!");
} else {
double result = fmod($1->numConst,$3->numConst);
$$ = newexpr(arithmetic_e);
$$->sym = newtemp(scope);
$$->numConst = result;
emit(mod_op, $1, $3, $$, nextquadlabel(), yylineno);
}
}
}
...
assignexpr: lvalue ASSIGN expr { if ( isMemberOfFunc )
{
isMemberOfFunc=false;
}
else{ if ( islocalid==true ){
islocalid = false;
}else{
if ( isLibFunc($1->sym->key) ) yyerror(token_node,"Library function \"" + $1->sym->key + "\" is not lvalue!");
if (SymTable_lookup(symtab,$1->sym->key,scope,false) && isFunc($1->sym->key,scope)) yyerror(token_node,"User function \"" + $1->sym->key + "\" is not lvalue!");
}
}
if($1->type == tableitem_e)
{
// lvalue[index] = expr
emit(tablesetelem,$1->index,$3,$1,nextquadlabel(),yylineno);
$$ = emit_iftableitem($1,nextquadlabel(),yylineno, scope);
$$->type = assignment;
} else
{
emit(assign,$3,NULL,$1,nextquadlabel(),yylineno); //lval = expr;
$$ = newexpr(assignment);
$$->sym = newtemp(scope);
emit(assign, $1,NULL,$$,nextquadlabel(),yylineno);
}
}
;
The printQuads method is the following:
void printQuads() {
unsigned int index = 1;
cout << "quad#\t\topcode\t\tresult\t\targ1\t\targ2\t\tlabel" <<endl;
cout << "-------------------------------------------------------------------------------------------------" << endl;
for(quad q : quads) {
string arg1_type = "";
string arg2_type = "";
cout << "quad before arg1 type check" << endl;
if(q.arg1 != nullptr) {
switch (q.arg1->type) {
case const_bool:
arg1_type = "\'" + BoolToString(q.arg1->boolConst) + "\'";
break;
case const_string:
arg1_type = "\"" + q.arg1->strConst + "\"";
break;
case const_num:
arg1_type = to_string(q.arg1->numConst);
break;
case var:
arg1_type = q.arg1->sym->key;
break;
case nil_e:
arg1_type = "nil";
break;
default:
arg1_type = q.arg1->sym->key;
break;
}
}
cout << "quad before arg2 type check" << endl;
if(q.arg2 != nullptr) {
switch (q.arg2->type) {
case const_bool:
arg2_type = "\'" + BoolToString(q.arg2->boolConst) + "\'";
break;
case const_string:
arg2_type = "\"" + q.arg2->strConst + "\"";
break;
case const_num:
arg2_type = to_string(q.arg2->numConst);
break;
case nil_e:
arg2_type = "nil";
break;
default:
arg2_type = q.arg2->sym->key;
break;
}
}
string label = "";
if(q.op == if_eq || q.op == if_noteq || q.op == if_lesseq || q.op == if_greatereq
|| q.op == if_less || q.op == if_greater || q.op == jump) label = q.label;
string resultKey = "";
cout << "quad before key check" << endl;
if(q.result != nullptr && q.result->sym != nullptr) {
cout << "quad " << opcodeStrings[q.op] << " inside if key check for" << opcodeStrings[q.op] << endl;
resultKey = q.result->sym->key;
}
cout << "quad after key check" << endl;
cout << index << ":\t\t" << opcodeStrings[q.op] << "\t\t" << resultKey << "\t\t" << arg1_type << "\t\t" << arg2_type << "\t\t" << label << "\t\t" << endl;
index++;
}
}
The quads variable is just a vector of quads. Here is the quad struct:
enum expr_t {
var,
tableitem_e,
user_func,
lib_func,
arithmetic_e,
assignment,
newtable_e,
const_num,
const_bool,
const_string,
nil_e,
bool_e
};
struct expr {
expr_t type;
binding* sym;
expr* index;
double numConst;
string strConst;
bool boolConst;
expr* next;
};
struct quad {
iopcode op;
expr* result;
expr* arg1;
expr* arg2;
unsigned int label;
unsigned int line;
};
The binding* is defined as follows and is a symbol table binding:
enum SymbolType{GLOBAL_, LOCAL_, FORMAL_, USERFUNC_, LIBFUNC_, TEMP};
struct binding{
std::string key;
bool isactive = true;
SymbolType sym;
//vector<binding *> formals;
scope_space space;
unsigned int offset;
unsigned int scope;
int line;
};
Here are the emit(), newtemp & newexpr() methods:
void emit(
iopcode op,
expr* arg1,
expr* arg2,
expr* result,
unsigned int label,
unsigned int line
){
quad p;
p.op = op;
p.arg1 = arg1;
p.arg2 = arg2;
p.result = result;
p.label = label;
p.line = line;
currQuad++;
quads.push_back(p);
}
binding *newtemp(unsigned int scope){
string name = newTempName();
binding* sym = SymTable_get(symtab,name,scope);
if (sym== nullptr){
SymTable_put(symtab,name,scope,TEMP,-1);
binding* sym = SymTable_get(symtab,name,scope);
return sym;
}else return sym;
}
string newTempName(){
string temp = "_t" + to_string(countertemp) + " ";
countertemp++;
return temp;
}
expr* newexpr(expr_t exprt){
expr* current = new expr;
current->sym = NULL;
current->index = NULL;
current->numConst = 0;
current->strConst = "";
current->boolConst = false;
current->next = NULL;
current->type = exprt;
return current;
}
unsigned int countertemp = 0;
unsigned int currQuad = 0;
Symbol table cpp file:
#include <algorithm>
bool isHidingBindings = false;
/* Return a hash code for pcKey.*/
static unsigned int SymTable_hash(string pcKey){
size_t ui;
unsigned int uiHash = 0U;
for (ui = 0U; pcKey[ui] != '\0'; ui++)
uiHash = uiHash * HASH_MULTIPLIER + pcKey[ui];
return (uiHash % DEFAULT_SIZE);
}
/*If b contains a binding with key pcKey, returns 1.Otherwise 0.
It is a checked runtime error for oSymTable and pcKey to be NULL.*/
int Bucket_contains(scope_bucket b, string pcKey){
vector<binding> current = b.entries[SymTable_hash(pcKey)]; /*find the entry binding based on the argument pcKey*/
for (int i=0; i<current.size(); i++){
binding cur = current.at(i);
if (cur.key==pcKey) return 1;
}
return 0;
}
/*epistrefei to index gia to bucket pou antistixei sto scope 'scope'.Se periptwsh pou den uparxei
akoma bucket gia to en logw scope, ean to create einai true dhmiourgei to antistoixo bucket sto
oSymTable kai epistrefei to index tou.Diaforetika epistrefei thn timh -1.*/
int indexofscope(SymTable_T &oSymTable, unsigned int scope, bool create){
int index=-1;
for(int i=0; i<oSymTable.buckets.size(); i++) if (oSymTable.buckets[i].scope == scope) index=i;
if ( index==-1 && create ){
scope_bucket newbucket;
newbucket.scope = scope;
oSymTable.buckets.push_back(newbucket);
index = oSymTable.buckets.size()-1;
}
return index;
}
/*If there is no binding with key : pcKey in oSymTable, puts a new binding with
this key and value : pvvValue returning 1.Otherise, it just returns 0.
It is a checked runtime error for oSymTable and pcKey to be NULL.*/
int SymTable_put(SymTable_T &oSymTable, string pcKey,unsigned int scope, SymbolType st, unsigned int line){
int index = indexofscope(oSymTable,scope, true);
if(index==-1) cerr<<"ERROR"<<endl;
scope_bucket *current = &oSymTable.buckets.at(index);
if ( Bucket_contains(*current, pcKey) && st != FORMAL_ && st != LOCAL_) return 0; /*If the binding exists in oSymTable return 0.*/
binding newnode;
newnode.key = pcKey;
newnode.isactive = true;
newnode.line = line;
newnode.sym = st;
newnode.scope = scope;
current->entries[SymTable_hash(pcKey)].push_back(newnode);
return 1;
}
/*Pairnei ws orisma to oSymTable kai to scope pou theloume na apenergopoihsoume.
An to sugkekrimeno scope den uparxei sto oSymTable epistrefei -1.Diaforetika 0*/
void SymTable_hide(SymTable_T &oSymTable, unsigned int scope){
isHidingBindings = true;
for(int i=scope; i >= 0; i--) {
if(i == 0) return;
int index = indexofscope(oSymTable,i,false);
if(index == -1) continue;
scope_bucket *current = &oSymTable.buckets.at(index);
for (int i=0; i<DEFAULT_SIZE; i++) {
for (int j=0; j<current->entries[i].size(); j++) {
if(current->entries[i].at(j).sym == LOCAL_ || current->entries[i].at(j).sym == FORMAL_)
current->entries[i].at(j).isactive = false;
}
}
}
}
void SymTable_show(SymTable_T &oSymTable, unsigned int scope){
isHidingBindings = false;
for(int i=scope; i >= 0; i--) {
if(i == 0) return;
int index = indexofscope(oSymTable,i,false);
if(index == -1) continue;
scope_bucket *current = &oSymTable.buckets.at(index);
for (int i=0; i<DEFAULT_SIZE; i++) {
for (int j=0; j<current->entries[i].size(); j++) {
if(current->entries[i].at(j).sym == LOCAL_ || current->entries[i].at(j).sym == FORMAL_)
current->entries[i].at(j).isactive = true;
}
}
}
}
bool SymTable_lookup(SymTable_T oSymTable, string pcKey, unsigned int scope, bool searchInScopeOnly){
for(int i=scope; i >= 0; i--) {
if(searchInScopeOnly && i != scope) break;
int index = indexofscope(oSymTable,i,false);
if(index == -1) continue;
scope_bucket current = oSymTable.buckets[index];
for(vector<binding> entry : current.entries) {
for(binding b : entry) {
if(b.key == pcKey && b.isactive) return true;
else if(b.key == pcKey && !b.isactive) return false;
}
}
}
return false;
}
binding* SymTable_lookupAndGet(SymTable_T &oSymTable, string pcKey, unsigned int scope) noexcept{
for ( int i=scope; i >= 0; --i ){
int index = indexofscope(oSymTable,i,false );
if (index==-1) continue;
scope_bucket ¤t = oSymTable.buckets[index];
for (auto &entry : current.entries) {
for (auto &b : entry ){
if ( b.key == pcKey ) return &b;
}
}
}
return nullptr;
}
/*Lamvanei ws orisma to oSymTable, kleidh tou tou desmou pou psaxnoume kai to scope tou desmou.
H sunarthsh telika epistrefei to value tou tou desmou.Diaforetika epistrefei 0*/
binding* SymTable_get(SymTable_T &oSymTable, const string pcKey, unsigned int scope){
for ( int i=scope; i >= 0; --i )
{
const int index = indexofscope( oSymTable, i, false );
if ( index == -1 )
{
continue;
}
scope_bucket& current = oSymTable.buckets[index];
for ( auto& entry : current.entries)
{
for ( auto& b : entry )
{
if ( b.key == pcKey )
{
return &b;
}
}
}
}
return nullptr;
}
When run with the following test file, the issue occurs at the z5 = 4 / 2; expression's assign quad:
// simple arithmetic operations
z1 = 1 + 2;
z10 = 1 + 1;
z2 = 1 - 3;
z3 = 4 * 4;
z4 = 5 / 2;
What's confusing is that if I print out the sym->key after each emit() in the arithmetic-related actions, I can see the keys just fine. But once I try to access them inside the printQuads it will fail (for the div operation at least so far). This has me thinking that maybe we are shallow copying the binding* sym thus losing the key? But how come the rest of them are printed normally?
I'm thinking that the issue (which has occured again in the past at various stages) could be caused by us using a ton of copy-by-value instead of by-reference but I can't exactly confirm this because most of the time it works (I'm guessing that means that this is undefined behavior?).
I'm sure this is very difficult to help debug but maybe someone will eyeball something that I can't see after this many hours.
Debugging by eyeballing your code is probably a useful skill, but it's far from the most productive form of debugging. These days, it's much less necessary, since there are lots of good tools which you can use to detect problems. (Here, I do mean "you", specifically. I can't use any of those tools because I don't have your complete project in front of me. And nor do I particularly want it; this is not a request for you to paste hundreds of lines of code).
You're almost certainly right that your problem is related to some kind of undefined behaviour. If you're correct about the bad_alloc exception being thrown by what is effectively a copy of a std::string, then it's most likely the result of the thing being copied from not being a valid std::string. Perhaps it's an actual std::string object whose internal members have been corrupted; perhaps the pointer is not actually pointing to an active std::string (which I think is the real problem, see below). Or perhaps it's something else.
Either way, the error occurred long before the bug manifests itself, so you're only going to stumble upon where it happened by blind luck. On the other hand, there are a variety of memory error detection tools available which may be able to pinpoint the precise moment in which you violated the contract by reading or writing to memory which didn't belong to you. These include Valgrind and AddressSanitizer (also known as ASan); one or both of these is certainly available for the platform on which you are developing your project. (I say that confidently even without knowing what that platform is, but you'll have to do a little research to find the one which works best for your particular environment. Both of those names can be looked up on Wikipedia.) These tools are very easy to use, and extraordinarily useful; they can save you hours or days of debugging and a lot of frustration. As an extra added bonus, they can detect bugs you don't even know you have, saving you the embarrassment of shipping a program which will blow up in the hands of the customer or the person who is marking your assignment. So I strongly recommend learning how to use them.
I probably should leave it at that, because it's better motivation to learn to use the tools. Still, I can't resist making a guess about where the problem lies. But honestly, you will learn a lot more by ignoring what I'm about to say and trying to figure out the problem yourself.
Anyway, you don't include much in the way of information about your SymTable_T class, and the inconsistent naming convention makes me wonder if you even wrote its code; perhaps it was part of the skeleton code you were given for this assignment. From what I can see in SymTable_put and SymTable_get, the SymTable_T includes something like a hash table, but doesn't use the C++ standard library associative containers. (That's a mistake from the beginning, IMHO. This assignment is about learning how to generate code, not how to write a good hash table. The C++ standard library associative containers are certainly adequate for your purposes, whether or not they are the absolute ideal for your use case, and they have the enormous advantages of already being thoroughly documented and debugged.)
It's possible that SymTable_T was not originally written in C++ at all. The use of free-standing functions like SymTable_put and SymTable_get rather than class methods is difficult to explain unless the functions were originally written in C, which doesn't allow object methods. On the other hand, they appear to use C++ standard library collections, as evidenced by the call to push_back in SymTable_put:
current->entries[SymTable_hash(pcKey)].push_back(newnode);
That suggests that entries is a std::vector (although there are other possibilities), and if it is, it should raise a red flag when you combine it with this, from SymTable_get (whitespace-edited to save screen space here):
for ( auto& entry : current.entries) {
for ( auto& b : entry ) {
if ( b.key == pcKey )
return &b;
}
}
To be honest, I don't understand that double loop. To start with, you seem to be ignoring the fact that there is a hash table somewhere in that data structure, but beyond that, it seems to me that entry should be a binding (that's what SymTable_put pushes onto the entries container), and I don't see where a binding is an iterable object. Perhaps I'm not reading that correctly.)
Regardless, evidently SymTable_get is returning a reference to something which is stored in a container, probably a std::vector, and that container is modified from time to time by having new elements pushed onto it. And pushing a new element onto the end of a std::vector invalidates all existing references to every element of the vector. (See https://en.cppreference.com/w/cpp/container/vector/push_back)
Thus, newtemp, which returns a binding* acquired from SymTable_get, is returning a pointer which may be invalidated in the future by some call to SymTable_put (though not by every call to that function; only the ones where the stars unline unhappily). That pointer is then stored into a data object which will (much later) be given to printQuads, which will attempt to use the pointer to make a copy of a string which it will attempt to print. And, as I mentioned towards the beginning of this treatise, trying to use an object which is pointed to by a dangling pointer is Undefined Behaviour.
As a minor note, making a copy of a string in order to print it out is completely unnecessary. A reference would work just fine, and save a bunch of unnecessary memory allocations. But that won't fix the problem (if my guess turns out to be correct) because printing through a dangling pointer is just as Undefined Behaviour as making a copy through a dangling pointer, and will likely manifest in some other mysterious way.
Related
I'm new to C++ and I'm trying to return a struct from a vector of structs by using 2 search criteria.
The function find_city is returning me everything from the defined range, regardless of whether it exists inside the vector of struct.
Here's my code:
struct cityLoc
{
int hRange;
int vRange;
int cityCode;
string cityName;
};
vector<cityLoc> cl1;
// the vector has already been preloaded with data
// function to return my struct from the vector
cityLoc find_city(int hRange, int vRange)
{
for (size_t i = 0; i < cl1.size(); i++)
{
if ((cl1[i].hRange = hRange) && (cl1[i].vRange = vRange))
{
return cl1[i];
}
}
}
int main()
{
for (int i = 0; i < 8; i++)
{
for (int j = 0; j <= 8; j++)
{
cityLoc this_city;
this_city = find_city(i, j);
cout << this_city.hRange << ", " << this_city.vRange << endl;
}
}
return 0;
}
Also, aside from this question, I was previously looking into std::find_if and didn't understand it. If I have the following code, what is the output? How do I modify it such that it returns a struct?
auto it = find_if(cl1.begin(), cl1.end(), [](cityLoc& cl) { return cl.hRange == 1; } );
You have a bug here:
if ((cl1[i].hRange = hRange) && (cl1[i].vRange = vRange))
Those = are assignments, not comparisons! Please enable compiler warnings and you won't be hurt by such obvious typos in future.
std::find_if will return the iterator to the found struct entry if it is successful, std::vector::end() otherwise. So, you should first validate the returning iterator if it is valid or not.
For example:
auto it = std::find_if( cl1.begin(), cl1.end(),
[](const cityLoc& cl) { return cl.hRange == 1; } );
if ( it == cl1.end() )
{
// ERROR: Not found! Return error code etc.
return -1;
}
// And, if found, process it here...
std::cout << it->hRange << '\n';
std::cout << it->vRange << '\n';
The criteria (predicate) part in std::find_if is a lambda expression.
I have four different sensors and store the value they record in a struct. Now I want to print these values every minute. But only the values that changed compared to the last print!
struct SensorData{
uint8_t temp; //temperature
uint8_t pres; //presure
uint8_t hum; //humidity
uint8_t fuel; //fuel
};
I solved this with 15 ifs. But this is kinda hard to read and debug. So I wounder if there is a better and more elegant way to solve this problem.
A table of all posabilitys: 1 if the value is different to the value before and 0 if they are the same:
This is how I solved it with the ifs at the moment:
if(storeData.temp != sensorData.temp && storeData.pres != sensorData.pres && storeData.hum != sensorData.hum && storeData.fuel == sensorData.fuel){
//print case 1: temp,pres,hum
}
else{
if(storeData.temp != sensorData.temp && storeData.pres != sensorData.pres && storeData.hum == sensorData.hum && storeData.fuel != sensorData.fuel){
//print case 2: temp,pres,fuel
}
else{
if(storeData.temp != sensorData.temp && storeData.pres != sensorData.pres && storeData.hum == sensorData.hum && storeData.fuel == sensorData.fuel){
//print case 3: temp,pres,
}else{
if(storeData.temp != sensorData.temp && storeData.pres == sensorData.pres && storeData.hum != sensorData.hum && storeData.fuel != sensorData.fuel){
//print case 4: temp,hum,fuel
}else{
...
Like i mentioned I am looking for a way to solve this more elagant without the use of 15 ifs. Thank you for your help
Your table is just an enumeration of four bits representing the sensors. Hence you may have four comparisons and adjust the bits of a result accordingly:
#include <cstdint>
struct SensorData
{
enum Index
{
Temperature = 3,
Presure = 2,
Humidity = 1,
Fuel = 0
};
std::uint8_t temp; // temperature
std::uint8_t pres; // presure
std::uint8_t hum; // humidity
std::uint8_t fuel; // fuel
};
unsigned compare_sensors(const SensorData& a, const SensorData& b) {
unsigned result = 0;
result |= (a.temp != b.temp) << SensorData::Temperature;
result |= (a.pres != b.pres) << SensorData::Presure;
result |= (a.hum != b.hum) << SensorData::Humidity;
result |= (a.fuel != b.fuel) << SensorData::Fuel;
result = 15 - result; // adjust order
return result;
}
#include <iostream>
int main()
{
SensorData a = {};
SensorData b = {};
b.pres = 255;
b.fuel = 255;
std::cout << "Prssure/Fuel change is case " << compare_sensors(a, b) << ".\n";
}
I would use 4 ifs:
std::string output;
char delimiter = ',';
//Check if data changed
if (storeData.temp != sensorData.temp)
output += std::to_string(sensorData.temp) + delimiter;
if (storeData.pres != sensorData.pres)
output += std::to_string(sensorData.pres) + delimiter;
if (storeData.hum != sensorData.hum)
output += std::to_string(sensorData.hum) + delimiter;
if (storeData.fuel != sensorData.fuel)
output += std::to_string(sensorData.fuel) + delimiter;
//Check if nothing changed
if (output == "")
;//Skip using 'return'?
//Remove 'delimiter' from last case
output.erase(output.length() - 1, 1);
//Send 'output'
//....
You can just use 4 if statements.
Check change in each variable separately, use print statement inside each if block.
As per the constraints mentioned, I don't find any reason why you shouldn't do this.
If you want to print them in a single print statement:
Use 4 if statements as mentioned above, and use 4 variables to hold the values from each if statement. Finally, print it in a single line.
Another method will be to build 'printing string' or 'number' step by step(start with an empty string and build it inside each if statement).
You can use arrays for storing the values, and a loop to check which array elements have changed. Rough outline in C (may contain errors, did not run it through a compiler):
#include <stdbool.h>
char *sensorNames[] = {"temp", "pres", "hum", "fuel"};
uint8_t sensorData[4];
uint8_t storeData[4];
int i;
bool first
while (1) {
get_data(sensorData);
first = true;
for (i=0; i < sizeof(sensorData); i++) {
if (sensorData[i] != storeData[i]) {
// something changed
if (!first) puts(", "); // add a comma if not first item in line
printf("%s: %d -> %d", sensorNames[i], storeData[i], sensorData[i]);
storeData[i] = sensorData[i]; // remember value
first = false;
}
}
if (!first) puts("\n"); // add a line feed if there were any changes
}
Additional advantage: adding a 5th or 6th sensor is trivial :-)
I'm solving a problem with a sorting non-redundant permutation of String Array.
For example, if input string is "8aC", then output should be order like {"Ca8","C8a", "aC8", "a8C", "8Ca", "9aC"}.I chose C++ data structure set because each time I insert the String into std:set, set is automatically sorted and eliminating redundancy. The output is fine.
But I WANT TO SORT SET IN DIFFERENT ALPHANUMERIC ORDER which is different from default alphanumeric sorting order. I want to customize the comparator of set the order priority like: upper case> lower case > digit.
I tried to customize comparator but it was quite frustrating. How can I customize the sorting order of the set? Here's my code.
set<string, StringCompare> setl;
for (i = 0; i < f; i++)
{
setl.insert(p[i]); //p is String Array. it has the information of permutation of String.
}
for (set<string>::iterator iter = setl.begin(); iter != setl.end(); ++iter)
cout << *iter << endl; //printing set items. it works fine.
struct StringCompare
{
bool operator () (const std::string s_left, const std::string s_right)
{
/*I want to use my character comparison function in here, but have no idea about that.
I'm not sure about that this is the right way to customize comparator either.*/
}
};
int compare_char(const char x, const char y)
{
if (char_type(x) == char_type(y))
{
return ( (int) x < (int) y) ? 1 : 0 ;
}
else return (char_type(x) > char_type(y)) ? 1 : 0;
}
int char_type(const char x)
{
int ascii = (int)x;
if (ascii >= 48 && ascii <= 57) // digit
{
return 1;
}
else if (ascii >= 97 && ascii <= 122) // lowercase
{
return 2;
}
else if (ascii >= 48 && ascii <= 57) // uppercase
{
return 3;
}
else
{
return 0;
}
}
You are almost there, but you should compare your string lexicographically.
I roughly added small changes to your code.
int char_type( const char x )
{
if ( isupper( x ) )
{
// upper case has the highest priority
return 0;
}
if ( islower( x ) )
{
return 1;
}
if ( isdigit( x ) )
{
// digit has the lowest priority
return 2;
}
// something else
return 3;
}
bool compare_char( const char x, const char y )
{
if ( char_type( x ) == char_type( y ) )
{
// same type so that we are going to compare characters
return ( x < y );
}
else
{
// different types
return char_type( x ) < char_type( y );
}
}
struct StringCompare
{
bool operator () ( const std::string& s_left, const std::string& s_right )
{
std::string::const_iterator iteLeft = s_left.begin();
std::string::const_iterator iteRight = s_right.begin();
// we are going to compare each character in strings
while ( iteLeft != s_left.end() && iteRight != s_right.end() )
{
if ( compare_char( *iteLeft, *iteRight ) )
{
return true;
}
if ( compare_char( *iteRight, *iteLeft ) )
{
return false;
}
++iteLeft;
++iteRight;
}
// either of strings reached the end.
if ( s_left.length() < s_right.length() )
{
return true;
}
// otherwise.
return false;
}
};
Your comparator is right. I would turn parameters to const ref like this
bool operator () (const std::string &s_left, const std::string &s_right)
and start by this simple implementation:
return s_left < s_right
This will give the default behaviour and give you confidence you are on the right track.
Then start comparing one char at the time with a for loop over the shorter between the length of the two strings. You can get chars out the string simply with the operator[] (e.g. s_left[i])
You're very nearly there with what you have.
In your comparison functor you are given two std::strings. What you need to do is to find the first position where the two strings differ. For that, you can use std::mismatch from the standard library. This returns a std::pair filled with iterators pointing to the first two elements that are different:
auto iterators = std::mismatch(std::begin(s_left), std::end(s_left),
std::begin(s_right), std::end(s_right));
Now, you can dereference the two iterators we've been given to get the characters:
char c_left = *iterators.first;
char c_right = *iterators.second;
You can pass those two characters to your compare_char function and it should all work :-)
Not absoloutely sure about this, but you may be able to use an enumerated class towards your advantage or an array and choose to read from certain indices in which ever order you like.
You can use one enumerated class to define the order you would like to output data in and another that contains the data to be outputed, then you can set a loop that keeps on looping to assign the value to the output in a permuted way!
namespace CustomeType
{
enum Outs { Ca8= 0,C8a, aC8, a8C, 8Ca, 9aC };
enum Order{1 = 0 , 2, 3 , 4 , 5};
void PlayCard(Outs input)
{
if (input == Ca8) // Enumerator is visible without qualification
{
string[] permuted;
permuted[0] = Outs[0];
permuted[1] = Outs[1];
permuted[2] = Outs[2];
permuted[3] = Outs[3];
permuted[4] = Outs[4];
}// else use a different order
else if (input == Ca8) // this might be much better
{
string[] permuted;
for(int i = 0; i<LessThanOutputLength; i++)
{
//use order 1 to assign values from Outs
}
}
}
}
This should work :
bool operator () (const std::string s_left, const std::string s_right)
{
for(int i = 0;i < s_left.size();i++){
if(isupper(s_left[i])){
if(isupper(s_right[i])) return s_left[i] < s_right[i];
else if(islower(s_right[i]) || isdigit(s_right[i]))return true;
}
else if(islower(s_left[i])){
if(islower(s_right[i])) return s_left[i] < s_right[i];
else if(isdigit(s_right[i])) return true;
else if(isupper(s_right[i])) return false;
}
else if(isdigit(s_left[i])){
if(isdigit(s_right[i])) return s_left[i] < s_right[i];
else if(islower(s_right[i]) || isupper(s_right[i])) return false;
}
}
}
I generally never get caught in looping. But looks like I am clueless here on the looping logic. When I put a break in the inner for loop, the values I get is always 0. However, when I remove break, I get the right values. What is wrong in my code?
void ContentCache::getAggregatorList()
{
TLOG_FUNC_ENTER();
ContentAggregator *aggregator = ContentAggregator::Instance();
QList <ContentID> aggContentList;
/* Get the service list from the aggregator */
aggregator->getContentList(CONTENT_TYPE_LIVE_SERVICE, aggContentList);
QList<Attribute> attributeListOut;
ContentID content;
foreach( content, aggContentList )
{
TLOG_INFO("SJ..main loop");
//if(content.source == TERRESTRIAL_BROADCAST_SOURCE )
// {
doGetServiceAttributes(content,attributeListOut);
unsigned int attributeIndex = 0;
foreach( Attribute attr, attributeListOut)
{
TLOG_INFO("SJ..Inner loop");
if(attr.name == "chanNum")
{
TLOG_INFO("SJ..The attr channelNum is = "<<attr.value.toInt());
if( attr.value.toUInt() == 999)
{
TLOG_INFO("SJ..The changed attr channelNum is"<<attr.value.toUInt());
attr.name = "chanNum";
attr.value = 200;
attributeListOut.replace(attributeIndex,attr);
TLOG_INFO("SJ..The changed attr channelNum is"<<attr.value.toUInt());
m_cacheDB->terrestrialUpdateService(content,attributeListOut);
}
else
{
TLOG_INFO("SJ..The unmodified attr channelNum is"<<attr.value.toUInt());
}
break;
}
attributeIndex++;
// }
}
}
// getAttributeValues(ContentID id, QList<QString> value, QList<Attribute> &attributeListOut);
}*
Without the break, you're counting all Attributes. With the break, you're only counting attributes up to the first one that has attr.name == "chanNum" which doesn't seem likely to be useful. It's not entirely clear what you intended the break to do.
One way to help with such things is to pull out just the logic and try it in a simplified form. For example (in C++11 form):
#include <iostream>
#include <string>
int main()
{
std::string string1{"BONGO"};
std::string string2{"This is string2"};
std::cout << "With the break\n";
for ( auto ch : string1 )
{
unsigned int attributeIndex = 0;
for( auto c: string2 )
{
if( c > 'a')
{
if( c > 'i')
{
std::cout << ch << c << "+";
}
else
{
std::cout << ch << c << "-";
}
break;
}
std::cout << ch << c << "#";
attributeIndex++;
}
std::cout << attributeIndex << '\n';
}
std::cout << "Without the break\n";
for ( auto ch : string1 )
{
unsigned int attributeIndex = 0;
for( auto c: string2 )
{
if( c > 'a')
{
if( c > 'i')
{
std::cout << ch << c << "+";
}
else
{
std::cout << ch << c << "-";
}
// no break
}
std::cout << ch << c << "#";
attributeIndex++;
}
std::cout << attributeIndex << '\n';
}
}
This produces the following output:
With the break
BT#Bh-1
OT#Oh-1
NT#Nh-1
GT#Gh-1
OT#Oh-1
Without the break
BT#Bh-Bh#Bi-Bi#Bs+Bs#B #Bi-Bi#Bs+Bs#B #Bs+Bs#Bt+Bt#Br+Br#Bi-Bi#Bn+Bn#Bg-Bg#B2#15
OT#Oh-Oh#Oi-Oi#Os+Os#O #Oi-Oi#Os+Os#O #Os+Os#Ot+Ot#Or+Or#Oi-Oi#On+On#Og-Og#O2#15
NT#Nh-Nh#Ni-Ni#Ns+Ns#N #Ni-Ni#Ns+Ns#N #Ns+Ns#Nt+Nt#Nr+Nr#Ni-Ni#Nn+Nn#Ng-Ng#N2#15
GT#Gh-Gh#Gi-Gi#Gs+Gs#G #Gi-Gi#Gs+Gs#G #Gs+Gs#Gt+Gt#Gr+Gr#Gi-Gi#Gn+Gn#Gg-Gg#G2#15
OT#Oh-Oh#Oi-Oi#Os+Os#O #Oi-Oi#Os+Os#O #Os+Os#Ot+Ot#Or+Or#Oi-Oi#On+On#Og-Og#O2#15
Using techniques like this can help you work out the logic abstractly and then code with confidence in the real project.
I missed clearing up the object - under pressure.Here is the silly solution to my silly problem. QList attributeListOut was not getting over-written, in fact it gets appended here. This was the problem. This should not be the case ideally. But, it all depends on how the operators are overloaded.
void ContentCache::getAggregatorList()
{
TLOG_FUNC_ENTER();
ContentAggregator *aggregator = ContentAggregator::Instance();
QList <ContentID> aggContentList;
/* Get the service list from the aggregator */
aggregator->getContentList(CONTENT_TYPE_LIVE_SERVICE, aggContentList);
QList<Attribute> attributeListOut;
ContentID content;
foreach( content, aggContentList )
{
TLOG_INFO("SJ..main loop");
//if(content.source == TERRESTRIAL_BROADCAST_SOURCE )
// {
attributeListOut.clear();
doGetServiceAttributes(content,attributeListOut);
unsigned int attributeIndex = 0;
foreach( Attribute attr, attributeListOut)
{
TLOG_INFO("SJ..Inner loop");
if(attr.name == "chanNum")
{
TLOG_INFO("SJ..The attr channelNum is = "<<attr.value.toInt());
if( attr.value.toUInt() == 999)
{
TLOG_INFO("SJ..The changed attr channelNum is"<<attr.value.toUInt());
attr.name = "chanNum";
attr.value = 200;
attributeListOut.replace(attributeIndex,attr);
TLOG_INFO("SJ..The changed attr channelNum is"<<attr.value.toUInt());
m_cacheDB->terrestrialUpdateService(content,attributeListOut);
}
else
{
TLOG_INFO("SJ..The unmodified attr channelNum is"<<attr.value.toUInt());
}
break;
}
attributeIndex++;
// }
}
}
// getAttributeValues(ContentID id, QList<QString> value, QList<Attribute> &attributeListOut);
}*
I am programming a MARIE assembler for one of my classes and I've ran into a logical error involving my control structure for one of my functions.
What I'm trying to accomplish is taking in all the data that was inserted into my vectors and then that data is being used to create integer opcode data for display. Yet for whatever reason my nested for loop is being ignored after my if-else chain.
The code within the nested for-loop seems to be working properly aside from this one logic error.
Please note that instructions, hexNums, secondPassData, valueZ, and symBols are my vectors.
For some clarification:
The If-Else chain is just used to read instruction words and to set basedInt to the proper decimal number for later hexadecimal conversion.
There are a few special conditions in the code below which are marked.
If there is no special condition then the code checks the valueZ vector at instructions.at(i) to see if the valueZ element is in symBols.
If it is a symBol element through character checks, it takes its hexNums position and adds it to the basedInt.
If it is not, it instead has its corresponding valueZ element converted from string to int and then added to the basedInt.
Those elements are added to the secondPassData vector.
int basedInt;
int newInt;
int pushInt;
string temp;
for(unsigned int i = 0; i < instructions.size(); ++i) //if i is less then instructions.size(), follow through with the statement
{
if(instructions.at(i) == "JNS") //sets basedInt to a decimal version of its hexidecimal opcode
{
basedInt = 0;
}
else if(instructions.at(i) == "HALT") //a special condition where the number is plugged into the secondPassData vector automatically
{
secondPassData.push_back(28672);
continue;
}
else if(instructions.at(i) == "CLEAR") //same as above
{
secondPassData.push_back(-24576);
continue;
}
else if(instructions.at(i) == "ADDL")
else if(instructions.at(i) == "ORG")
{
secondPassData.push_back(0000);
continue;
}
else if(instructions.at(i) == "HEX") //checks for the HEX psuedo-OP.
{
temp = valueZ.at(i); //converts it at position i to a string
basedInt = atoi(temp.c_str()); //converts that string to an int.
secondPassData.push_back(basedInt);//pushes into vector.
continue;
}
else if(instructions.at(i) == "DEC")
{
temp = valueZ.at(i);
basedInt = atoi(temp.c_str()); //similar function as above.
secondPassData.push_back(basedInt);
continue;
}
else
{
cout << "Beep Boop, program borked!" << endl;
return;
}
//for some reason the code below is getting ignored.
cout << i << endl;
for(unsigned int a = 0; a < instructions.size(); ++a) //works
{
cout << i << " " << a << endl;
string valFind = valueZ.at(i);
string symFind = symBols.at(a); //works
temp = valueZ.at(i);
if(symFind[0] == valFind[0])
{
newInt = hexNums.at(a);
pushInt = basedInt + newInt;
secondPassData.push_back(pushInt);
break;
}
else if(symFind[0] != valFind[0]) //works
{
temp = valueZ.at(i);
newInt = atoi(temp.c_str()); //works
pushInt= basedInt + newInt;
secondPassData.push_back(pushInt); //works
break;
}
break;
}
}
If you hit a continue in your else-if chain your main for loop will jump to its next iteration and will skip the rest of your code (in this case your nested for loop)
continue