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Guest.cpp
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/*
$info$
tags: thunklibs|xcb-sync
$end_info$
*/
#include <xcb/sync.h>
#include <xcb/xcbext.h>
#include <stdio.h>
#include <cstring>
#include <map>
#include <string>
#include "common/Guest.h"
#include <stdarg.h>
#include "thunkgen_guest_libxcb-sync.inl"
extern "C" {
xcb_extension_t xcb_sync_id = {
.name = "SYNC",
.global_id = 0,
};
void FEX_malloc_free_on_host(void *Ptr) {
struct {void *p;} args;
args.p = Ptr;
fexthunks_libxcb_sync_FEX_free_on_host(&args);
}
size_t FEX_malloc_usable_size(void *Ptr) {
struct {void *p; size_t rv;} args;
args.p = Ptr;
fexthunks_libxcb_sync_FEX_usable_size(&args);
return args.rv;
}
static void InitializeExtensions(xcb_connection_t *c) {
FEX_xcb_sync_init_extension(c, &xcb_sync_id);
}
xcb_sync_initialize_cookie_t xcb_sync_initialize(xcb_connection_t * a_0,uint8_t a_1,uint8_t a_2){
auto ret = fexfn_pack_xcb_sync_initialize(a_0, a_1, a_2);
InitializeExtensions(a_0);
return ret;
}
xcb_sync_initialize_cookie_t xcb_sync_initialize_unchecked(xcb_connection_t * a_0,uint8_t a_1,uint8_t a_2){
auto ret = fexfn_pack_xcb_sync_initialize_unchecked(a_0, a_1, a_2);
InitializeExtensions(a_0);
return ret;
}
xcb_sync_initialize_reply_t * xcb_sync_initialize_reply(xcb_connection_t * a_0,xcb_sync_initialize_cookie_t a_1,xcb_generic_error_t ** a_2){
auto ret = fexfn_pack_xcb_sync_initialize_reply(a_0, a_1, a_2);
// We now need to do some fixups here
if (a_2 && *a_2) {
// If the error code pointer exists then we need to copy the contents and free the host facing pointer
xcb_generic_error_t *NewError = (xcb_generic_error_t *)malloc(sizeof(xcb_generic_error_t));
memcpy(NewError, *a_2, sizeof(xcb_generic_error_t));
FEX_malloc_free_on_host(*a_2);
// User is expected to free this
*a_2 = NewError;
}
if (ret) {
constexpr size_t ResultSize = sizeof(std::remove_pointer<decltype(ret)>::type);
void *NewPtr = malloc(ResultSize);
memcpy(NewPtr, ret, ResultSize);
FEX_malloc_free_on_host(ret);
ret = (decltype(ret))NewPtr;
}
return ret;
}
xcb_sync_list_system_counters_reply_t * xcb_sync_list_system_counters_reply(xcb_connection_t * a_0,xcb_sync_list_system_counters_cookie_t a_1,xcb_generic_error_t ** a_2){
auto ret = fexfn_pack_xcb_sync_list_system_counters_reply(a_0, a_1, a_2);
// We now need to do some fixups here
if (a_2 && *a_2) {
// If the error code pointer exists then we need to copy the contents and free the host facing pointer
xcb_generic_error_t *NewError = (xcb_generic_error_t *)malloc(sizeof(xcb_generic_error_t));
memcpy(NewError, *a_2, sizeof(xcb_generic_error_t));
FEX_malloc_free_on_host(*a_2);
// User is expected to free this
*a_2 = NewError;
}
if (ret) {
constexpr size_t ResultSize = sizeof(std::remove_pointer<decltype(ret)>::type);
void *NewPtr = malloc(ResultSize);
memcpy(NewPtr, ret, ResultSize);
FEX_malloc_free_on_host(ret);
ret = (decltype(ret))NewPtr;
}
return ret;
}
xcb_sync_query_counter_reply_t * xcb_sync_query_counter_reply(xcb_connection_t * a_0,xcb_sync_query_counter_cookie_t a_1,xcb_generic_error_t ** a_2){
auto ret = fexfn_pack_xcb_sync_query_counter_reply(a_0, a_1, a_2);
// We now need to do some fixups here
if (a_2 && *a_2) {
// If the error code pointer exists then we need to copy the contents and free the host facing pointer
xcb_generic_error_t *NewError = (xcb_generic_error_t *)malloc(sizeof(xcb_generic_error_t));
memcpy(NewError, *a_2, sizeof(xcb_generic_error_t));
FEX_malloc_free_on_host(*a_2);
// User is expected to free this
*a_2 = NewError;
}
if (ret) {
constexpr size_t ResultSize = sizeof(std::remove_pointer<decltype(ret)>::type);
void *NewPtr = malloc(ResultSize);
memcpy(NewPtr, ret, ResultSize);
FEX_malloc_free_on_host(ret);
ret = (decltype(ret))NewPtr;
}
return ret;
}
xcb_sync_query_alarm_reply_t * xcb_sync_query_alarm_reply(xcb_connection_t * a_0,xcb_sync_query_alarm_cookie_t a_1,xcb_generic_error_t ** a_2){
auto ret = fexfn_pack_xcb_sync_query_alarm_reply(a_0, a_1, a_2);
// We now need to do some fixups here
if (a_2 && *a_2) {
// If the error code pointer exists then we need to copy the contents and free the host facing pointer
xcb_generic_error_t *NewError = (xcb_generic_error_t *)malloc(sizeof(xcb_generic_error_t));
memcpy(NewError, *a_2, sizeof(xcb_generic_error_t));
FEX_malloc_free_on_host(*a_2);
// User is expected to free this
*a_2 = NewError;
}
if (ret) {
constexpr size_t ResultSize = sizeof(std::remove_pointer<decltype(ret)>::type);
void *NewPtr = malloc(ResultSize);
memcpy(NewPtr, ret, ResultSize);
FEX_malloc_free_on_host(ret);
ret = (decltype(ret))NewPtr;
}
return ret;
}
xcb_sync_get_priority_reply_t * xcb_sync_get_priority_reply(xcb_connection_t * a_0,xcb_sync_get_priority_cookie_t a_1,xcb_generic_error_t ** a_2){
auto ret = fexfn_pack_xcb_sync_get_priority_reply(a_0, a_1, a_2);
// We now need to do some fixups here
if (a_2 && *a_2) {
// If the error code pointer exists then we need to copy the contents and free the host facing pointer
xcb_generic_error_t *NewError = (xcb_generic_error_t *)malloc(sizeof(xcb_generic_error_t));
memcpy(NewError, *a_2, sizeof(xcb_generic_error_t));
FEX_malloc_free_on_host(*a_2);
// User is expected to free this
*a_2 = NewError;
}
if (ret) {
constexpr size_t ResultSize = sizeof(std::remove_pointer<decltype(ret)>::type);
void *NewPtr = malloc(ResultSize);
memcpy(NewPtr, ret, ResultSize);
FEX_malloc_free_on_host(ret);
ret = (decltype(ret))NewPtr;
}
return ret;
}
xcb_sync_query_fence_reply_t * xcb_sync_query_fence_reply(xcb_connection_t * a_0,xcb_sync_query_fence_cookie_t a_1,xcb_generic_error_t ** a_2){
auto ret = fexfn_pack_xcb_sync_query_fence_reply(a_0, a_1, a_2);
// We now need to do some fixups here
if (a_2 && *a_2) {
// If the error code pointer exists then we need to copy the contents and free the host facing pointer
xcb_generic_error_t *NewError = (xcb_generic_error_t *)malloc(sizeof(xcb_generic_error_t));
memcpy(NewError, *a_2, sizeof(xcb_generic_error_t));
FEX_malloc_free_on_host(*a_2);
// User is expected to free this
*a_2 = NewError;
}
if (ret) {
constexpr size_t ResultSize = sizeof(std::remove_pointer<decltype(ret)>::type);
void *NewPtr = malloc(ResultSize);
memcpy(NewPtr, ret, ResultSize);
FEX_malloc_free_on_host(ret);
ret = (decltype(ret))NewPtr;
}
return ret;
}
}
LOAD_LIB(libxcb_sync)