example/filterkey/filterkey.cpp - third_party/rapidjson - Git at Google

 // JSON filterkey example with SAX-style API.

 // This example parses JSON text from stdin with validation.
 // During parsing, specified key will be filtered using a SAX handler.
 // It re-output the JSON content to stdout without whitespace.

 #include "rapidjson/reader.h"
 #include "rapidjson/writer.h"
 #include "rapidjson/filereadstream.h"
 #include "rapidjson/filewritestream.h"
 #include "rapidjson/error/en.h"
 #include <stack>

 using namespace rapidjson;

 // This handler forwards event into an output handler, with filtering the descendent events of specified key.
 template <typename OutputHandler>
 class FilterKeyHandler {
 public:
     typedef char Ch;

     FilterKeyHandler(OutputHandler& outputHandler, const Ch* keyString, SizeType keyLength) :
         outputHandler_(outputHandler), keyString_(keyString), keyLength_(keyLength), filterValueDepth_(), filteredKeyCount_()
     {}

     bool Null()             { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Null()    && EndValue(); }
     bool Bool(bool b)       { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Bool(b)   && EndValue(); }
     bool Int(int i)         { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Int(i)    && EndValue(); }
     bool Uint(unsigned u)   { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Uint(u)   && EndValue(); }
     bool Int64(int64_t i)   { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Int64(i)  && EndValue(); }
     bool Uint64(uint64_t u) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Uint64(u) && EndValue(); }
     bool Double(double d)   { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Double(d) && EndValue(); }
     bool RawNumber(const Ch* str, SizeType len, bool copy) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.RawNumber(str, len, copy) && EndValue(); }
     bool String   (const Ch* str, SizeType len, bool copy) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.String   (str, len, copy) && EndValue(); }

     bool StartObject() {
         if (filterValueDepth_ > 0) {
             filterValueDepth_++;
             return true;
         }
         else {
             filteredKeyCount_.push(0);
             return outputHandler_.StartObject();
         }
     }

     bool Key(const Ch* str, SizeType len, bool copy) {
         if (filterValueDepth_ > 0)
             return true;
         else if (len == keyLength_ && std::memcmp(str, keyString_, len) == 0) {
             filterValueDepth_ = 1;
             return true;
         }
         else {
             ++filteredKeyCount_.top();
             return outputHandler_.Key(str, len, copy);
         }
     }

     bool EndObject(SizeType) {
         if (filterValueDepth_ > 0) {
             filterValueDepth_--;
             return EndValue();
         }
         else {
             // Use our own filtered memberCount
             SizeType memberCount = filteredKeyCount_.top();
             filteredKeyCount_.pop();
             return outputHandler_.EndObject(memberCount) && EndValue();
         }
     }

     bool StartArray() {
         if (filterValueDepth_ > 0) {
             filterValueDepth_++;
             return true;
         }
         else
             return outputHandler_.StartArray();
     }

     bool EndArray(SizeType elementCount) {
         if (filterValueDepth_ > 0) {
             filterValueDepth_--;
             return EndValue();
         }
         else
             return outputHandler_.EndArray(elementCount) && EndValue();
     }

 private:
     FilterKeyHandler(const FilterKeyHandler&);
     FilterKeyHandler& operator=(const FilterKeyHandler&);

     bool EndValue() {
         if (filterValueDepth_ == 1) // Just at the end of value after filtered key
             filterValueDepth_ = 0;
         return true;
     }

     OutputHandler& outputHandler_;
     const char* keyString_;
     const SizeType keyLength_;
     unsigned filterValueDepth_;
     std::stack<SizeType> filteredKeyCount_;
 };

 int main(int argc, char* argv[]) {
     if (argc != 2) {
         fprintf(stderr, "filterkey key < input.json > output.json\n");
         return 1;
     }

     // Prepare JSON reader and input stream.
     Reader reader;
     char readBuffer[65536];
     FileReadStream is(stdin, readBuffer, sizeof(readBuffer));

     // Prepare JSON writer and output stream.
     char writeBuffer[65536];
     FileWriteStream os(stdout, writeBuffer, sizeof(writeBuffer));
     Writer<FileWriteStream> writer(os);

     // Prepare Filter
     FilterKeyHandler<Writer<FileWriteStream> > filter(writer, argv[1], static_cast<SizeType>(strlen(argv[1])));

     // JSON reader parse from the input stream, filter handler filters the events, and forward to writer.
     // i.e. the events flow is: reader -> filter -> writer
     if (!reader.Parse(is, filter)) {
         fprintf(stderr, "\nError(%u): %s\n", static_cast<unsigned>(reader.GetErrorOffset()), GetParseError_En(reader.GetParseErrorCode()));
         return 1;
     }

     return 0;
 }
	// JSON filterkey example with SAX-style API.

	// This example parses JSON text from stdin with validation.
	// During parsing, specified key will be filtered using a SAX handler.
	// It re-output the JSON content to stdout without whitespace.

	#include "rapidjson/reader.h"
	#include "rapidjson/writer.h"
	#include "rapidjson/filereadstream.h"
	#include "rapidjson/filewritestream.h"
	#include "rapidjson/error/en.h"
	#include <stack>

	using namespace rapidjson;

	// This handler forwards event into an output handler, with filtering the descendent events of specified key.
	template <typename OutputHandler>
	class FilterKeyHandler {
	public:
	typedef char Ch;

	FilterKeyHandler(OutputHandler& outputHandler, const Ch* keyString, SizeType keyLength) :
	outputHandler_(outputHandler), keyString_(keyString), keyLength_(keyLength), filterValueDepth_(), filteredKeyCount_()
	{}

	bool Null() { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Null() && EndValue(); }
	bool Bool(bool b) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Bool(b) && EndValue(); }
	bool Int(int i) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Int(i) && EndValue(); }
	bool Uint(unsigned u) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Uint(u) && EndValue(); }
	bool Int64(int64_t i) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Int64(i) && EndValue(); }
	bool Uint64(uint64_t u) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Uint64(u) && EndValue(); }
	bool Double(double d) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.Double(d) && EndValue(); }
	bool RawNumber(const Ch* str, SizeType len, bool copy) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.RawNumber(str, len, copy) && EndValue(); }
	bool String (const Ch* str, SizeType len, bool copy) { return filterValueDepth_ > 0 ? EndValue() : outputHandler_.String (str, len, copy) && EndValue(); }

	bool StartObject() {
	if (filterValueDepth_ > 0) {
	filterValueDepth_++;
	return true;
	}
	else {
	filteredKeyCount_.push(0);
	return outputHandler_.StartObject();
	}
	}

	bool Key(const Ch* str, SizeType len, bool copy) {
	if (filterValueDepth_ > 0)
	return true;
	else if (len == keyLength_ && std::memcmp(str, keyString_, len) == 0) {
	filterValueDepth_ = 1;
	return true;
	}
	else {
	++filteredKeyCount_.top();
	return outputHandler_.Key(str, len, copy);
	}
	}

	bool EndObject(SizeType) {
	if (filterValueDepth_ > 0) {
	filterValueDepth_--;
	return EndValue();
	}
	else {
	// Use our own filtered memberCount
	SizeType memberCount = filteredKeyCount_.top();
	filteredKeyCount_.pop();
	return outputHandler_.EndObject(memberCount) && EndValue();
	}
	}

	bool StartArray() {
	if (filterValueDepth_ > 0) {
	filterValueDepth_++;
	return true;
	}
	else
	return outputHandler_.StartArray();
	}

	bool EndArray(SizeType elementCount) {
	if (filterValueDepth_ > 0) {
	filterValueDepth_--;
	return EndValue();
	}
	else
	return outputHandler_.EndArray(elementCount) && EndValue();
	}

	private:
	FilterKeyHandler(const FilterKeyHandler&);
	FilterKeyHandler& operator=(const FilterKeyHandler&);

	bool EndValue() {
	if (filterValueDepth_ == 1) // Just at the end of value after filtered key
	filterValueDepth_ = 0;
	return true;
	}

	OutputHandler& outputHandler_;
	const char* keyString_;
	const SizeType keyLength_;
	unsigned filterValueDepth_;
	std::stack<SizeType> filteredKeyCount_;
	};

	int main(int argc, char* argv[]) {
	if (argc != 2) {
	fprintf(stderr, "filterkey key < input.json > output.json\n");
	return 1;
	}

	// Prepare JSON reader and input stream.
	Reader reader;
	char readBuffer[65536];
	FileReadStream is(stdin, readBuffer, sizeof(readBuffer));

	// Prepare JSON writer and output stream.
	char writeBuffer[65536];
	FileWriteStream os(stdout, writeBuffer, sizeof(writeBuffer));
	Writer<FileWriteStream> writer(os);

	// Prepare Filter
	FilterKeyHandler<Writer<FileWriteStream> > filter(writer, argv[1], static_cast<SizeType>(strlen(argv[1])));

	// JSON reader parse from the input stream, filter handler filters the events, and forward to writer.
	// i.e. the events flow is: reader -> filter -> writer
	if (!reader.Parse(is, filter)) {
	fprintf(stderr, "\nError(%u): %s\n", static_cast<unsigned>(reader.GetErrorOffset()), GetParseError_En(reader.GetParseErrorCode()));
	return 1;
	}

	return 0;
	}