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duel.cpp
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duel.cpp
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/*
* duel.cpp
*
* Created on: 2010-5-2
* Author: Argon
*/
#include <cstring>
#include "duel.h"
#include "interpreter.h"
#include "field.h"
#include "card.h"
#include "effect.h"
#include "group.h"
#include "ocgapi.h"
#include "buffer.h"
duel::duel() {
lua = new interpreter(this);
game_field = new field(this);
game_field->temp_card = new_card(0);
message_buffer.reserve(SIZE_MESSAGE_BUFFER);
#ifdef _WIN32
_set_error_mode(_OUT_TO_MSGBOX);
#endif // _WIN32
}
duel::~duel() {
for(auto& pcard : cards)
delete pcard;
for(auto& pgroup : groups)
delete pgroup;
for(auto& peffect : effects)
delete peffect;
delete lua;
delete game_field;
}
void duel::clear() {
for(auto& pcard : cards)
delete pcard;
for(auto& pgroup : groups)
delete pgroup;
for(auto& peffect : effects)
delete peffect;
delete game_field;
cards.clear();
groups.clear();
effects.clear();
game_field = new field(this);
game_field->temp_card = new_card(0);
}
card* duel::new_card(uint32 code) {
card* pcard = new card(this);
cards.insert(pcard);
if(code)
::read_card(code, &(pcard->data));
pcard->data.code = code;
lua->register_card(pcard);
return pcard;
}
group* duel::register_group(group* pgroup) {
groups.insert(pgroup);
if(lua->call_depth)
sgroups.insert(pgroup);
lua->register_group(pgroup);
return pgroup;
}
group* duel::new_group() {
group* pgroup = new group(this);
return register_group(pgroup);
}
group* duel::new_group(card* pcard) {
group* pgroup = new group(this, pcard);
return register_group(pgroup);
}
group* duel::new_group(const card_set& cset) {
group* pgroup = new group(this, cset);
return register_group(pgroup);
}
effect* duel::new_effect() {
effect* peffect = new effect(this);
effects.insert(peffect);
lua->register_effect(peffect);
return peffect;
}
void duel::delete_card(card* pcard) {
cards.erase(pcard);
delete pcard;
}
void duel::delete_group(group* pgroup) {
lua->unregister_group(pgroup);
groups.erase(pgroup);
sgroups.erase(pgroup);
delete pgroup;
}
void duel::delete_effect(effect* peffect) {
lua->unregister_effect(peffect);
effects.erase(peffect);
delete peffect;
}
int32 duel::read_buffer(byte* buf) {
auto size = buffer_size();
if (size)
std::memcpy(buf, message_buffer.data(), size);
return (int32)size;
}
void duel::release_script_group() {
for(auto& pgroup : sgroups) {
if(pgroup->is_readonly == GTYPE_DEFAULT) {
lua->unregister_group(pgroup);
groups.erase(pgroup);
delete pgroup;
}
}
sgroups.clear();
}
void duel::restore_assumes() {
for(auto& pcard : assumes)
pcard->assume_type = 0;
assumes.clear();
}
void duel::write_buffer(const void* data, int size) {
vector_write_block(message_buffer, data, size);
}
void duel::write_buffer32(uint32 value) {
vector_write<uint32_t>(message_buffer, value);
}
void duel::write_buffer16(uint16 value) {
vector_write<uint16_t>(message_buffer, value);
}
void duel::write_buffer8(uint8 value) {
vector_write<unsigned char>(message_buffer, value);
}
void duel::clear_buffer() {
message_buffer.clear();
}
void duel::set_responsei(uint32 resp) {
game_field->returns.ivalue[0] = resp;
}
void duel::set_responseb(byte* resp) {
std::memcpy(game_field->returns.bvalue, resp, SIZE_RETURN_VALUE);
}
int32 duel::get_next_integer(int32 l, int32 h) {
if (game_field->core.duel_options & DUEL_OLD_REPLAY) {
return random.get_random_integer_old(l, h);
}
else {
return random.get_random_integer(l, h);
}
}