#include "libcef_dll/cpptoc/post_data_cpptoc.h"
#include <algorithm>
#include "libcef_dll/cpptoc/post_data_element_cpptoc.h"
CEF_EXPORT cef_post_data_t* cef_post_data_create() {
CefRefPtr<CefPostData> _retval = CefPostData::Create();
return CefPostDataCppToC::Wrap(_retval);
}
namespace {
int CEF_CALLBACK post_data_is_read_only(struct _cef_post_data_t* self) {
DCHECK(self);
if (!self)
return 0;
bool _retval = CefPostDataCppToC::Get(self)->IsReadOnly();
return _retval;
}
int CEF_CALLBACK
post_data_has_excluded_elements(struct _cef_post_data_t* self) {
DCHECK(self);
if (!self)
return 0;
bool _retval = CefPostDataCppToC::Get(self)->HasExcludedElements();
return _retval;
}
size_t CEF_CALLBACK post_data_get_element_count(struct _cef_post_data_t* self) {
DCHECK(self);
if (!self)
return 0;
size_t _retval = CefPostDataCppToC::Get(self)->GetElementCount();
return _retval;
}
void CEF_CALLBACK
post_data_get_elements(struct _cef_post_data_t* self,
size_t* elementsCount,
struct _cef_post_data_element_t** elements) {
DCHECK(self);
if (!self)
return;
DCHECK(elementsCount && (*elementsCount == 0 || elements));
if (!elementsCount || (*elementsCount > 0 && !elements))
return;
std::vector<CefRefPtr<CefPostDataElement>> elementsList;
if (elementsCount && *elementsCount > 0 && elements) {
for (size_t i = 0; i < *elementsCount; ++i) {
elementsList.push_back(CefPostDataElementCppToC::Unwrap(elements[i]));
}
}
CefPostDataCppToC::Get(self)->GetElements(elementsList);
if (elementsCount && elements) {
*elementsCount = std::min(elementsList.size(), *elementsCount);
if (*elementsCount > 0) {
for (size_t i = 0; i < *elementsCount; ++i) {
elements[i] = CefPostDataElementCppToC::Wrap(elementsList[i]);
}
}
}
}
int CEF_CALLBACK
post_data_remove_element(struct _cef_post_data_t* self,
struct _cef_post_data_element_t* element) {
DCHECK(self);
if (!self)
return 0;
DCHECK(element);
if (!element)
return 0;
bool _retval = CefPostDataCppToC::Get(self)->RemoveElement(
CefPostDataElementCppToC::Unwrap(element));
return _retval;
}
int CEF_CALLBACK
post_data_add_element(struct _cef_post_data_t* self,
struct _cef_post_data_element_t* element) {
DCHECK(self);
if (!self)
return 0;
DCHECK(element);
if (!element)
return 0;
bool _retval = CefPostDataCppToC::Get(self)->AddElement(
CefPostDataElementCppToC::Unwrap(element));
return _retval;
}
void CEF_CALLBACK post_data_remove_elements(struct _cef_post_data_t* self) {
DCHECK(self);
if (!self)
return;
CefPostDataCppToC::Get(self)->RemoveElements();
}
}
CefPostDataCppToC::CefPostDataCppToC() {
GetStruct()->is_read_only = post_data_is_read_only;
GetStruct()->has_excluded_elements = post_data_has_excluded_elements;
GetStruct()->get_element_count = post_data_get_element_count;
GetStruct()->get_elements = post_data_get_elements;
GetStruct()->remove_element = post_data_remove_element;
GetStruct()->add_element = post_data_add_element;
GetStruct()->remove_elements = post_data_remove_elements;
}
CefPostDataCppToC::~CefPostDataCppToC() {}
template <>
CefRefPtr<CefPostData>
CefCppToCRefCounted<CefPostDataCppToC, CefPostData, cef_post_data_t>::
UnwrapDerived(CefWrapperType type, cef_post_data_t* s) {
NOTREACHED() << "Unexpected class type: " << type;
return nullptr;
}
template <>
CefWrapperType CefCppToCRefCounted<CefPostDataCppToC,
CefPostData,
cef_post_data_t>::kWrapperType =
WT_POST_DATA;