478 lines
18 KiB
C++
478 lines
18 KiB
C++
#include "functions.hpp"
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#include "custom_classes.hpp"
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#include "global_vars.hpp"
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#include "scenes.hpp"
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#include <thread>
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bool validPos( SDLPP::Scene &scene, std::shared_ptr< TetrisPiece > piece ) {
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for ( auto &x : piece->getObjects() ) {
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auto collisions = scene.getCollisions(
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*x, { BRICK_ID, FLOOR_ID, BORDER_LEFT_ID, BORDER_RIGHT_ID } );
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if ( collisions.size() > 1 )
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return false;
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}
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return true;
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}
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void updateShadow( SDLPP::Scene &scene ) {
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if ( !g_cur_object ) {
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g_cur_shadow->destroy();
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g_cur_shadow.reset();
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return;
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}
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if ( !g_cur_shadow )
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return;
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g_cur_shadow->setPos( g_cur_object->getPos() );
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double shadow_drop = BOTTOM_BORDER;
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auto &invalid_objects = g_cur_object->getObjects();
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for ( auto &x : g_cur_shadow->getObjects() ) {
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auto block_pos = x->getPos();
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if ( BOTTOM_BORDER - block_pos.second < shadow_drop )
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shadow_drop = BOTTOM_BORDER - block_pos.second;
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// set colider column's position to current block's X position
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g_shadow_colider->setPos( block_pos.first, TOP_BORDER );
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auto collisions =
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scene.getCollisions( *g_shadow_colider, { BRICK_ID } );
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auto curY = block_pos.second;
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for ( auto &col : collisions ) {
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// if collision with g_cur_object, ignore
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if ( std::find( invalid_objects.begin(), invalid_objects.end(),
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col ) != invalid_objects.end() )
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continue;
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auto possible_drop = col->getPos().second - curY;
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if ( possible_drop < shadow_drop && possible_drop >= 0 )
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shadow_drop = possible_drop;
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}
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}
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// we want the shadow to rest on top of the nearest floor
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shadow_drop -= BLOCK_SIZE;
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auto shadow_pos = g_cur_shadow->getPos();
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g_cur_shadow->setPos( shadow_pos.first, shadow_pos.second + shadow_drop );
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}
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void moveThem( std::shared_ptr< SDLPP::Scene > scene, int ticks ) {
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if ( !g_cur_object )
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return;
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// get movement generated by player
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auto movement = g_cur_object->getMovement();
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g_ticks_till_fall -= ticks;
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if ( g_cur_object->isDescending() )
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g_ticks_till_descend -= ticks;
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if ( g_cur_object->isMoving() )
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g_ticks_till_movement -= ticks;
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if ( g_ticks_till_fall > 0 ) {
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if ( g_cur_object->isMoving() && g_ticks_till_movement <= 0 ) {
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g_ticks_till_movement = TICKS_TILL_MOVE;
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g_cur_object->movePiece( movement.first * BLOCK_SIZE, 0 );
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if ( !validPos( *scene, g_cur_object ) ) {
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g_cur_object->movePiece( movement.first * -BLOCK_SIZE, 0 );
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return;
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} else
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goto check_floor;
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}
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if ( g_cur_object->isDescending() && g_ticks_till_descend <= 0 ) {
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g_ticks_till_descend = TICKS_TILL_DESCEND;
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g_cur_object->movePiece( 0, movement.second * BLOCK_SIZE );
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if ( !validPos( *scene, g_cur_object ) ) {
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g_cur_object->movePiece( 0, movement.second * -BLOCK_SIZE );
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return;
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} else
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goto check_floor;
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}
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return;
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}
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g_ticks_till_fall = TICKS_TILL_FALL;
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g_cur_object->movePiece( 0, BLOCK_SIZE );
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check_floor:
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bool fell = false;
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for ( auto &x : g_cur_object->getObjects() ) {
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auto collisions = scene->getCollisions( *x, { BRICK_ID, FLOOR_ID } );
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// we get 1 collision every time with ourselves
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if ( collisions.size() > 1 ) {
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fell = true;
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break;
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}
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}
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if ( fell ) {
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g_cur_object->movePiece( 0, -BLOCK_SIZE );
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for ( auto &block : g_cur_object->getObjects() ) {
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if ( scene->getCollisions( *block, { GAME_OVER } ).size() > 0 ) {
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g_update_scenes.push_back(g_game_over_scene);
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g_active_scenes.push_back( g_game_over_scene );
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g_input_functions.push_back( gameOverSceneInput );
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#ifdef FEATURE
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pauseBlocks();
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#endif
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break;
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}
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}
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g_cur_object.reset();
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}
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updateShadow( *scene );
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}
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void quitGame() {
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std::cout << "Quitting!" << std::endl;
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g_quit = true;
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}
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void resetGame() {
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g_cur_object.reset();
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g_checked_line = true;
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g_next_object.reset();
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g_score = 0;
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g_update_score = true;
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g_main_scene->resetScene();
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g_main_scene->setPrevTicks( SDL_GetTicks() );
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g_active_scenes = { g_main_scene };
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g_input_functions = { mainSceneInput };
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for ( int i = 0; i < 7; i++ )
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g_bag[i] = 28;
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}
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int crashFlags( std::shared_ptr< TetrisPiece > piece,
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std::shared_ptr< TetrisBlock > block, SDLPP::Scene &scene,
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int left, int right, int bottom ) {
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int retFlags = 0;
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auto collisions = scene.getCollisions(
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*block, { BORDER_LEFT_ID, BORDER_RIGHT_ID, FLOOR_ID } );
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for ( auto &col : collisions ) {
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switch ( col->getId() ) {
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case BORDER_LEFT_ID:
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retFlags |= left;
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break;
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case BORDER_RIGHT_ID:
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retFlags |= right;
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break;
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case FLOOR_ID:
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retFlags |= bottom;
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default:
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break;
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}
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}
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collisions = scene.getCollisions( *block, { BRICK_ID } );
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if ( collisions.size() > 1 ) {
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for ( auto &col : collisions ) {
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if ( piece->isLeft( *col ) )
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retFlags |= left;
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else if ( piece->isRight( *col ) )
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retFlags |= right;
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else
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retFlags |= bottom;
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}
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}
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return retFlags;
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}
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bool checkRotation( std::shared_ptr< TetrisPiece > piece,
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SDLPP::Scene &scene ) {
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int crash = 0;
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int cur_left = 0x01;
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int cur_right = 0x02;
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int was_left = 0x04;
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int was_right = 0x08;
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int bottom = 0x10;
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int counter = 0;
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do {
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counter++;
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if ( counter > 5 ) {
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piece->revert();
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return false;
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}
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crash = 0;
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for ( auto &block : piece->getObjects() ) {
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crash |=
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crashFlags( piece, block, scene, cur_left, cur_right, bottom );
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}
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if ( crash & bottom || ( crash & cur_left && crash & cur_right ) ||
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( crash & cur_left && crash & was_right ) ||
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( crash & cur_right && crash & was_left ) ) {
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piece->revert();
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return false;
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}
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crash &= ~( was_left | was_right );
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if ( crash & cur_left ) {
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piece->movePiece( BLOCK_SIZE, 0 );
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crash &= ~cur_left;
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crash |= was_left;
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}
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if ( crash & cur_right ) {
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piece->movePiece( -BLOCK_SIZE, 0 );
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crash &= ~cur_right;
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crash |= was_right;
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}
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} while ( crash );
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return true;
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}
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std::shared_ptr< TetrisBlock >
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createTetrisBlock( double x, double y, const std::string &color,
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const std::string &outline, int index,
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std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto ret =
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std::make_shared< TetrisBlock >( x, y, BLOCK_SIZE, BLOCK_SIZE, renderer,
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color, true, index, scene, g_bag );
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ret->setOutlineColor( outline );
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ret->addCollision( SDLPP::RectColider( 0.1, 0.1, 0.8, 0.8 ) );
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ret->setId( BRICK_ID );
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ret->centerX();
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scene->addObject( ret );
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return ret;
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}
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std::shared_ptr< TetrisPiece >
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tetrisBrick( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_brick"];
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auto outline = colors["piece_brick_out"];
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retPiece->addPiece( createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_BRICK, renderer,
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scene ),
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-1, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER, color, outline,
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TETRIS_BRICK, renderer, scene ),
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0, 0 );
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retPiece->addPiece(
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createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_BRICK, renderer, scene ),
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-1, 1 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_BRICK, renderer,
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scene ),
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0, 1 );
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retPiece->disableRotation();
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return retPiece;
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}
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std::shared_ptr< TetrisPiece >
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tetrisT( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_T"];
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auto outline = colors["piece_T_out"];
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retPiece->addPiece( createTetrisBlock( 0.5 - BLOCK_SIZE,
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TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_T, renderer, scene ),
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-1, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_T, renderer, scene ),
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0, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER, color, outline,
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TETRIS_T, renderer, scene ),
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0, -1 );
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retPiece->addPiece( createTetrisBlock( 0.5 + BLOCK_SIZE,
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TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_T, renderer, scene ),
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1, 0 );
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return retPiece;
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}
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std::shared_ptr< TetrisPiece >
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tetrisLRight( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_L_right"];
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auto outline = colors["piece_L_right_out"];
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retPiece->addPiece(
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createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_L_RIGHT, renderer, scene ),
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-2, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_L_RIGHT, renderer,
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scene ),
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-1, 0 );
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retPiece->addPiece(
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createTetrisBlock( 0.5 + BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_L_RIGHT, renderer, scene ),
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0, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5 + BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_L_RIGHT, renderer,
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scene ),
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0, -1 );
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return retPiece;
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}
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std::shared_ptr< TetrisPiece >
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tetrisZRight( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_Z_right"];
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auto outline = colors["piece_Z_right_out"];
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retPiece->addPiece(
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createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_Z_RIGHT, renderer, scene ),
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-1, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_Z_RIGHT, renderer,
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scene ),
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0, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER, color, outline,
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TETRIS_Z_RIGHT, renderer, scene ),
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0, -1 );
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retPiece->addPiece( createTetrisBlock( 0.5 + BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_Z_RIGHT, renderer,
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scene ),
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1, -1 );
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return retPiece;
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}
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std::shared_ptr< TetrisPiece >
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tetrisLine( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_line"];
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auto outline = colors["piece_line_out"];
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retPiece->addPiece( createTetrisBlock( 0.5 - 2 * BLOCK_SIZE, TOP_BORDER,
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color, outline, TETRIS_LINE,
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renderer, scene ),
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-1, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_LINE, renderer,
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scene ),
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0, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER, color, outline,
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TETRIS_LINE, renderer, scene ),
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1, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5 + BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_LINE, renderer,
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scene ),
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2, 0 );
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return retPiece;
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}
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std::shared_ptr< TetrisPiece >
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tetrisLLeft( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_L_left"];
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auto outline = colors["piece_L_left_out"];
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retPiece->addPiece( createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_L_LEFT, renderer,
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scene ),
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0, -1 );
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retPiece->addPiece(
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createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_L_LEFT, renderer, scene ),
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0, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_L_LEFT, renderer,
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scene ),
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1, 0 );
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retPiece->addPiece(
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createTetrisBlock( 0.5 + BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_L_LEFT, renderer, scene ),
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2, 0 );
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return retPiece;
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}
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std::shared_ptr< TetrisPiece >
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tetrisZLeft( std::shared_ptr< SDLPP::Renderer > renderer,
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std::shared_ptr< SDLPP::Scene > scene ) {
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auto retPiece = std::make_shared< TetrisPiece >();
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auto color = colors["piece_Z_left"];
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auto outline = colors["piece_Z_left_out"];
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retPiece->addPiece( createTetrisBlock( 0.5 - BLOCK_SIZE, TOP_BORDER, color,
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outline, TETRIS_Z_LEFT, renderer,
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scene ),
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-1, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER, color, outline,
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TETRIS_Z_LEFT, renderer, scene ),
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0, 0 );
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retPiece->addPiece( createTetrisBlock( 0.5, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_Z_LEFT, renderer,
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scene ),
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0, 1 );
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retPiece->addPiece(
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createTetrisBlock( 0.5 + BLOCK_SIZE, TOP_BORDER + BLOCK_SIZE, color,
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outline, TETRIS_Z_LEFT, renderer, scene ),
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1, 1 );
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return retPiece;
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}
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void updateSize() {
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// have to resize rectangles for the text to be resized correctly
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g_main_scene->updateSizeAndPosition();
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g_menu_scene->updateSizeAndPosition();
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g_game_over_scene->updateSizeAndPosition();
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g_options_scene->updateSizeAndPosition();
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std::unordered_set< int > textObjects = { TEXT_ID, MENU_TEXT_ID,
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MENU_ITEM_ID };
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for ( auto &x : g_main_scene->getObjects( textObjects ) ) {
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x->updateSizeAndPosition();
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}
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g_score_texture->updateSizeAndPosition();
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for ( auto &x : g_menu_scene->getObjects( textObjects ) ) {
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x->updateSizeAndPosition();
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}
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for ( auto &x : g_game_over_scene->getObjects( textObjects ) ) {
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x->updateSizeAndPosition();
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}
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for ( auto &x : g_options_scene->getObjects( textObjects ) ) {
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x->updateSizeAndPosition();
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}
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}
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void updateBlocks() {
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for ( auto &x : g_main_scene->getObjects( { BRICK_ID, SHADOW_ID } ) ) {
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x->specialAction( PIECE_ACTION_UPDATE_BLOCK );
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}
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}
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#ifdef FEATURE
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void pauseBlocks() {
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for ( auto &x : g_main_scene->getObjects( { BRICK_ID, SHADOW_ID } ) ) {
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x->pauseAnimation();
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}
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}
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void resumeBlocks() {
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for ( auto &x : g_main_scene->getObjects( { BRICK_ID, SHADOW_ID } ) ) {
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x->resumeAnimation();
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}
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}
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#endif
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void updateColors() {
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for ( auto &x : g_main_scene->getObjects( { BRICK_ID, SHADOW_ID } ) ) {
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x->specialAction( PIECE_ACTION_UPDATE_COLOR );
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}
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for ( auto &x : g_main_scene->getObjects( { BARRIER_ID } ) ) {
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x->setColor( colors["barrier"] );
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}
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for ( auto &x : g_main_scene->getObjects( { BACKGROUND_ID } ) ) {
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x->setColor( colors["background"] );
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}
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for ( auto &x : g_main_scene->getObjects( { SHADOW_ID } ) ) {
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x->setColor( colors["shadow"] );
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}
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for ( auto &x : g_main_scene->getObjects( { LINE_ID } ) ) {
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x->setColor( colors["line"] );
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}
|
|
if ( g_font_config != nullptr ) {
|
|
g_font_config->setColor( colors["text"] );
|
|
g_font_config->setOutlineColor( colors["text_out"] );
|
|
for ( auto &x : g_main_scene->getObjects( { TEXT_ID } ) ) {
|
|
x->updateSizeAndPosition();
|
|
}
|
|
}
|
|
g_menu_options[g_menu_select]->setColor( colors["menu_item_background"] );
|
|
g_game_over_options[g_game_over_select]->setColor(
|
|
colors["menu_item_background"] );
|
|
g_options_options[g_options_select]->setColor(
|
|
colors["menu_item_background"] );
|
|
for ( auto &x : g_menu_scene->getObjects( { MENU_BACKGROUND_ID } ) ) {
|
|
x->setColor( colors["menu_background"] );
|
|
}
|
|
for ( auto &x : g_game_over_scene->getObjects( { MENU_BACKGROUND_ID } ) ) {
|
|
x->setColor( colors["menu_background"] );
|
|
}
|
|
for ( auto &x : g_options_scene->getObjects( { MENU_BACKGROUND_ID } ) ) {
|
|
x->setColor( colors["menu_background"] );
|
|
}
|
|
updateSize();
|
|
}
|