Ejemplo n.º 1
0
    XMLSerializer* ResultSet::toHtmlTable (XMLSerializer* xml, const char* tableClass) {
	if (xml == NULL) xml = new XMLSerializer("  ");
	xml->open("table");
	if (tableClass != NULL)
	    xml->attribute("class", "results");
	{
	    const VariableVector cols = getOrderedVars();
	    xml->open("tr"); {
		for (VariableVector::const_iterator col = cols.begin();
		     col != cols.end(); ++col)
		    xml->leaf("th", (*col)->toString());
	    } xml->close();
	    for (ResultSetConstIterator row = begin(); row != end(); ++row) {
		xml->open("tr"); {
		    for (VariableVector::const_iterator col = cols.begin();
			 col != cols.end(); ++col) {
			const POS* val = (*row)->get(*col);
			if (val != NULL)
			    xml->leaf("td", val->toString());
			else
			    xml->leaf("td", "");
		    }
		} xml->close();
	    }
	} xml->close();
	return xml;
    }
Ejemplo n.º 2
0
VariableVector add_variable_vectors(const VariableVector& vec1, const VariableVector& vec2) {
	
	VariableVector empty;
	VariableVector sum;
	string var_name;
	double component_sum;

	// if the vectors are of different sizes, return empty
	if (vec1.size() != vec2.size()) return empty;

	for (VariableVector::const_iterator it1 = vec1.begin(); it1 != vec1.end(); ++it1) {

		var_name = it1->first;

		// if this variable is in both vectors, add the values
		if (vec2.count(var_name) != 0) {
			component_sum = it1->second + vec2.at(var_name);
			sum.insert(make_pair(var_name, component_sum));
		} 
		// if this variable is only in vec1, return empty
		else {
			return empty;
		}
	}

	// if we reach this point, every variable in vec1 is also in vec2
	// since both vectors are of the same size, it is safe to return

	return sum;
}
Ejemplo n.º 3
0
VariableVector increment_weight_vector(const VariableVector& weights, const VariableVector& scaled_gradient) {

	VariableVector empty;
	

	if (weights.size() != scaled_gradient.size()) {
		return empty;
	}

	VariableVector incremented;
	string partial_name, weight_name;
	double scaled_partial, weight_val;

	for (VariableVector::const_iterator it = scaled_gradient.begin(); it != scaled_gradient.end(); ++it) {
		partial_name = it->first;
		scaled_partial = it->second;

		weight_name = partial_name_to_weight_name(partial_name);

		if (weights.count(weight_name) == 0) {
			return empty;
		}

		weight_val = weights.at(weight_name);

		incremented.insert(make_pair(weight_name, weight_val + scaled_partial));
	}

	return incremented;
}
Ejemplo n.º 4
0
double distance_between_variable_vectors(const VariableVector& vec1, const VariableVector& vec2) {
	// Both vectors must have the same dimension
	if (vec1.size() != vec2.size()) {
		return -1;
	}

	double square_distance = 0;
	string var_name;
	double val1, val2;

	for (VariableVector::const_iterator it = vec1.begin(); it != vec1.end(); ++it) {

		var_name = it->first;

		// Both vectors must have exactly the same variables
		if (vec2.count(var_name) == 0) {
			return -1;
		}

		val1 = vec1.at(var_name);
		val2 = vec2.at(var_name);

		square_distance += pow((val1 - val2), 2);
	}

	return pow(square_distance, 0.5);
}
Ejemplo n.º 5
0
VariableVector scale_variable_vector(const VariableVector& vec, double scaling_factor) {

	VariableVector scaled;

	for (VariableVector::const_iterator it = vec.begin(); it != vec.end(); ++it) {
		scaled.insert(make_pair(it->first, it->second * scaling_factor));
	}

	return scaled;
}
Ejemplo n.º 6
0
const VariableVector variable_vector_union(const VariableVector& vec1, const VariableVector& vec2) {

	VariableVector empty;
	VariableVector v;

	// add all the variables in Vec 1 first
	// if any of these variables are seen in Vec 2, this is an error. Return the empty Variable Vector.
	// if there is no overlap, then it is safe to add all the variables in Vec 2
	for (VariableVector::const_iterator it1 = vec1.begin(); it1 != vec1.end(); ++it1) {
		if (vec2.count(it1->first) != 0) {
			return empty;
		}
		v.insert(make_pair(it1->first, it1->second));
	}

	for (VariableVector::const_iterator it2 = vec2.begin(); it2 != vec2.end(); ++it2) {
		v.insert(make_pair(it2->first, it2->second));
	}

	return v;
}
Ejemplo n.º 7
0
VariableVector component_wise_div(const VariableVector& vec, double divisor) {

	VariableVector quotient;

	if (divisor == 0) {
		cerr << "Cannot divide by 0." << endl;
		return quotient;
	}

	for (VariableVector::const_iterator it = vec.begin(); it != vec.end(); ++it) {
		quotient.insert(make_pair(it->first, it->second / divisor));
	}

	return quotient;
}
Ejemplo n.º 8
0
    XMLSerializer* ResultSet::toXml (XMLSerializer* xml) {
	if (xml == NULL) xml = new XMLSerializer("  ");
	xml->open("sparql");
	xml->attribute("xmlns", "http://www.w3.org/2005/sparql-results#");
	xml->open("head");
	const VariableVector cols = getOrderedVars();
	for (VariableVectorConstIterator varIt = cols.begin() ; varIt != cols.end(); ++varIt) {
	    xml->empty("variable");
	    xml->attribute("name", (*varIt)->getLexicalValue());
	}
	xml->close();
	xml->open("results");
	for (ResultSetIterator it = begin() ; it != end(); it++)
	    (*it)->toXml(xml);
	xml->close();
	xml->close();
	return xml;
    }
Ejemplo n.º 9
0
	bool operator() (const Result* lhs, const Result* rhs) {
	    for (VariableVectorConstIterator it = vars.begin();
		 it != vars.end(); ++it) {
		// 			SPARQLSerializer s;
		// 			pair.expression->express(&s);
		const POS* l = lhs->get(*it);
		const POS* r = rhs->get(*it);
		if (r == NULL) {
		    if (l == NULL)
			continue;
		    else
			return false;
		}
		if (l == NULL)
		    return true;
		if (dynamic_cast<const Bindable*>(l) && 
		    dynamic_cast<const Bindable*>(r))
		    continue;
		if (l != r)
		    return posFactory->lessThan(l, r);
	    }
	    return false;
	}
Ejemplo n.º 10
0
    std::string ResultSet::toString (NamespaceMap* namespaces) const {
	std::stringstream s;
	if (resultType == RESULT_Boolean)
	    return size() > 0 ? "true\n" : "false\n" ;

	else if (resultType == RESULT_Graphs)
	    return std::string("<RdfDB result>\n") + db->toString() + "\n</RdfDB result>";

	/* Get column widths and fill namespace declarations. */
	std::vector< const POS* > vars;
	std::vector< size_t > widths;
	unsigned count = 0;
	unsigned lastInKnownVars = 0;
	{
	    std::map< const POS*, unsigned > pos2col;
	    const VariableVector cols = getOrderedVars();
//	    vars = getOrderedVars();
	    for (VariableVectorConstIterator varIt = cols.begin() ; varIt != cols.end(); ++varIt) {
		const POS* var = *varIt;
		pos2col[var] = count++;
		widths.push_back(var->toString().size());
		vars.push_back(var);
	    }

	    VariableList intruders;
	    lastInKnownVars = count;
	    for (ResultSetConstIterator row = results.begin() ; row != results.end(); ++row)
		for (BindingSetIterator b = (*row)->begin(); b != (*row)->end(); ++b) {
		    const POS* var = b->first;
		    if (pos2col.find(var) == pos2col.end()) {
			/* Error: a variable not listed in knownVars. */
			pos2col[var] = count++;
			std::string rendered(render(var, namespaces));
			widths.push_back(rendered.size());
			vars.push_back(var);
			intruders.insert(var);
		    }
		    std::string rendered(render(b->second.pos, namespaces));
		    size_t width = rendered.size();
		    if (width > widths[pos2col[var]])
			widths[pos2col[var]] = width;
		}
	}

	/* Generate ResultSet string. */
	/*   Top Border */
	unsigned i;
	for (i = 0; i < count; i++) {
	    s << (i == 0 ? (ordered == true ? BoxChars::GBoxChars->ordered : BoxChars::GBoxChars->ul) : BoxChars::GBoxChars->us);
	    s << STRING(widths[i]+2, BoxChars::GBoxChars->ub);
	}
	s << BoxChars::GBoxChars->ur << std::endl;

	/*   Column Headings */
	for (i = 0; i < count; i++) {
	    const POS* var = vars[i];
	    s << (i == 0 ? BoxChars::GBoxChars->rl : i < lastInKnownVars ? BoxChars::GBoxChars->rs : BoxChars::GBoxChars->unlistedVar) << ' ';
	    size_t width = var->toString().length();
	    s << var->toString() << STRING(widths[i] - width, BoxChars::GBoxChars->rb) << ' '; // left justified.
	}
	s << BoxChars::GBoxChars->rr << std::endl;

	/*  Rows */
	for (ResultSetConstIterator row = results.begin() ; row != results.end(); row++) {
#if (INTRA_ROW_SEPARATORS)
	    /*  Intra-row Border */
	    for (i = 0; i < count; i++) {
		s << (i == 0 ? BoxChars::GBoxChars->sl : BoxChars::GBoxChars->ss);
		s << std::string(widths[i]+2, BoxChars::GBoxChars->sb);
	    }
	    s << BoxChars::GBoxChars->sr << std::endl;
#endif
	    /*  Values */
	    for (i = 0; i < count; ++i) {
		const POS* var = vars[i];
		const POS* val = (*row)->get(var);
		const std::string str = render(val, namespaces);
		s << (i == 0 ? BoxChars::GBoxChars->rl : BoxChars::GBoxChars->rs) << ' ';
		size_t width = str.length();
		s << STRING(widths[i] - width, BoxChars::GBoxChars->rb) << str << ' '; // right justified.
	    }
	    s << BoxChars::GBoxChars->rr << std::endl;
	}

	/*   Bottom Border */
	for (i = 0; i < count; i++) {
	    s << (i == 0 ? BoxChars::GBoxChars->ll : BoxChars::GBoxChars->ls);
	    s << STRING(widths[i]+2, BoxChars::GBoxChars->lb);
	}
	s << BoxChars::GBoxChars->lr << std::endl;
	return s.str();
    }
Ejemplo n.º 11
0
void print_variable_vector(VariableVector v) {
	for (VariableVector::iterator it = v.begin(); it != v.end(); ++it) {
		cout << "name: " << it->first << ", val: " << it->second << endl;
	}
}