Commit 9735d891 by xiongziliang

整理代码

parent 5ad4103c
......@@ -76,8 +76,8 @@ inline void AMFValue::init() {
}
}
AMFValue::AMFValue(AMFType type) :
_type(type) {
AMFValue::AMFValue() :
_type(AMF_NULL) {
init();
}
......@@ -161,6 +161,120 @@ AMFValue& AMFValue::operator =(AMFValue &&from) {
}
void AMFValue::clear() {
switch (_type) {
case AMF_STRING:
_value.string->clear();
break;
case AMF_OBJECT:
case AMF_ECMA_ARRAY:
_value.object->clear();
break;
default:
break;
}
}
AMFType AMFValue::type() const {
return _type;
}
const std::string &AMFValue::as_string() const {
if(_type != AMF_STRING){
throw std::runtime_error("AMF not a string");
}
return *_value.string;
}
double AMFValue::as_number() const {
switch (_type) {
case AMF_NUMBER:
return _value.number;
case AMF_INTEGER:
return _value.integer;
case AMF_BOOLEAN:
return _value.boolean;
default:
throw std::runtime_error("AMF not a number");
}
}
int AMFValue::as_integer() const {
switch (_type) {
case AMF_NUMBER:
return _value.number;
case AMF_INTEGER:
return _value.integer;
case AMF_BOOLEAN:
return _value.boolean;
default:
throw std::runtime_error("AMF not a integer");
}
}
bool AMFValue::as_boolean() const {
switch (_type) {
case AMF_NUMBER:
return _value.number;
case AMF_INTEGER:
return _value.integer;
case AMF_BOOLEAN:
return _value.boolean;
default:
throw std::runtime_error("AMF not a boolean");
}
}
const AMFValue& AMFValue::operator[](const char *str) const {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
auto i = _value.object->find(str);
if (i == _value.object->end()) {
static AMFValue val(AMF_NULL);
return val;
}
return i->second;
}
void AMFValue::object_for_each(const function<void(const string &key, const AMFValue &val)> &fun) const {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
for (auto & pr : *(_value.object)) {
fun(pr.first, pr.second);
}
}
AMFValue::operator bool() const{
return _type != AMF_NULL;
}
void AMFValue::set(const std::string &s, const AMFValue &val) {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
_value.object->emplace(s, val);
}
void AMFValue::add(const AMFValue &val) {
if (_type != AMF_STRICT_ARRAY) {
throw std::runtime_error("AMF not a array");
}
assert(_type == AMF_STRICT_ARRAY);
_value.array->push_back(val);
}
const AMFValue::mapType &AMFValue::getMap() const {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
return *_value.object;
}
const AMFValue::arrayType &AMFValue::getArr() const {
if (_type != AMF_STRICT_ARRAY) {
throw std::runtime_error("AMF not a array");
}
return *_value.array;
}
///////////////////////////////////////////////////////////////////////////
enum {
......@@ -316,6 +430,14 @@ void AMFEncoder::write_key(const std::string& s) {
buf += s;
}
void AMFEncoder::clear() {
buf.clear();
}
const std::string& AMFEncoder::data() const {
return buf;
}
//////////////////Decoder//////////////////
uint8_t AMFDecoder::front() {
......@@ -551,3 +673,8 @@ AMFValue AMFDecoder::load_arr() {
}*/
return object;
}
AMFDecoder::AMFDecoder(const std::string &buf_in, size_t pos_in, int version_in) :
buf(buf_in), pos(pos_in), version(version_in) {
}
......@@ -32,6 +32,9 @@
#include <unordered_map>
#include <map>
#include <stdexcept>
#include <functional>
using namespace std;
enum AMFType {
AMF_NUMBER,
AMF_INTEGER,
......@@ -48,8 +51,11 @@ class AMFValue;
class AMFValue {
public:
friend class AMFEncoder;
typedef std::map<std::string, AMFValue> mapType;
typedef std::vector<AMFValue> arrayType;
AMFValue(AMFType type = AMF_NULL);
AMFValue();
AMFValue(const char *s);
AMFValue(const std::string &s);
AMFValue(double n);
......@@ -61,115 +67,23 @@ public:
AMFValue &operator =(AMFValue &&from);
~AMFValue();
void clear() {
switch (_type) {
case AMF_STRING:
_value.string->clear();
break;
case AMF_OBJECT:
case AMF_ECMA_ARRAY:
_value.object->clear();
break;
default:
break;
}
}
AMFType type() const {
return _type;
}
const std::string &as_string() const {
if(_type != AMF_STRING){
throw std::runtime_error("AMF not a string");
}
return *_value.string;
}
double as_number() const {
switch (_type) {
case AMF_NUMBER:
return _value.number;
case AMF_INTEGER:
return _value.integer;
case AMF_BOOLEAN:
return _value.boolean;
break;
default:
throw std::runtime_error("AMF not a number");
break;
}
}
int as_integer() const {
switch (_type) {
case AMF_NUMBER:
return _value.number;
case AMF_INTEGER:
return _value.integer;
case AMF_BOOLEAN:
return _value.boolean;
break;
default:
throw std::runtime_error("AMF not a integer");
break;
}
}
bool as_boolean() const {
switch (_type) {
case AMF_NUMBER:
return _value.number;
case AMF_INTEGER:
return _value.integer;
case AMF_BOOLEAN:
return _value.boolean;
break;
default:
throw std::runtime_error("AMF not a boolean");
break;
}
}
const AMFValue &operator[](const char *str) const {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
auto i = _value.object->find(str);
if (i == _value.object->end()) {
static AMFValue val(AMF_NULL);
return val;
}
return i->second;
}
template<typename FUN>
void object_for_each(const FUN &fun) const {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
for (auto & pr : *(_value.object)) {
fun(pr.first, pr.second);
}
}
operator bool() const{
return _type != AMF_NULL;
}
void set(const std::string &s, const AMFValue &val) {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
_value.object->emplace(s, val);
}
void add(const AMFValue &val) {
if (_type != AMF_STRICT_ARRAY) {
throw std::runtime_error("AMF not a array");
}
assert(_type == AMF_STRICT_ARRAY);
_value.array->push_back(val);
}
void clear();
AMFType type() const ;
const std::string &as_string() const;
double as_number() const;
int as_integer() const;
bool as_boolean() const;
const AMFValue &operator[](const char *str) const;
void object_for_each(const function<void(const string &key, const AMFValue &val)> &fun) const ;
operator bool() const;
void set(const std::string &s, const AMFValue &val);
void add(const AMFValue &val);
private:
const mapType &getMap() const;
const arrayType &getArr() const;
void destroy();
void init();
private:
typedef std::map<std::string, AMFValue> mapType;
typedef std::vector<AMFValue> arrayType;
AMFType _type;
union {
std::string *string;
......@@ -179,50 +93,24 @@ private:
mapType *object;
arrayType *array;
} _value;
friend class AMFEncoder;
const mapType &getMap() const {
if (_type != AMF_OBJECT && _type != AMF_ECMA_ARRAY) {
throw std::runtime_error("AMF not a object");
}
return *_value.object;
}
const arrayType &getArr() const {
if (_type != AMF_STRICT_ARRAY) {
throw std::runtime_error("AMF not a array");
}
return *_value.array;
}
inline void destroy();
inline void init();
};
class AMFDecoder {
public:
AMFDecoder(const std::string &_buf, size_t _pos, int _version = 0) :
buf(_buf), pos(_pos), version(_version) {
}
int getVersion() const {
return version;
}
AMFDecoder(const std::string &buf, size_t pos, int version = 0);
template<typename TP>
TP load();
private:
const std::string &buf;
size_t pos;
int version;
std::string load_key();
AMFValue load_object();
AMFValue load_ecma();
AMFValue load_arr();
uint8_t front();
uint8_t pop_front();
private:
const std::string &buf;
size_t pos;
int version;
};
class AMFEncoder {
......@@ -234,15 +122,12 @@ public:
AMFEncoder & operator <<(const double n);
AMFEncoder & operator <<(const bool b);
AMFEncoder & operator <<(const AMFValue &value);
const std::string data() const {
return buf;
}
void clear() {
buf.clear();
}
const std::string& data() const ;
void clear() ;
private:
void write_key(const std::string &s);
AMFEncoder &write_undefined();
private:
std::string buf;
};
......
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