mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-26 20:53:07 +00:00
472 lines
No EOL
16 KiB
C
472 lines
No EOL
16 KiB
C
#include <furi.h>
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#include <gui/gui.h>
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#include <input/input.h>
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#include <stdlib.h>
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#include <stdbool.h>
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#include <string.h>
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#include <furi_hal_resources.h>
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#include <furi_hal_gpio.h>
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#define BORDER_OFFSET 1
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#define MARGIN_OFFSET 3
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#define BLOCK_HEIGHT 6
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#define BLOCK_WIDTH 6
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#define FIELD_WIDTH 11
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#define FIELD_HEIGHT 24
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typedef struct Point {
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// Also used for offset data, which is sometimes negative
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int8_t x, y;
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} Point;
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// Rotation logic taken from
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// https://www.youtube.com/watch?v=yIpk5TJ_uaI
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typedef enum { OffsetTypeCommon, OffsetTypeI, OffsetTypeO } OffsetType;
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// Since we only support rotating clockwise, these are actual translation values,
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// not values to be subtracted to get translation values
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static const Point rotOffsetTranslation[3][4][5] = {
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{{{0, 0}, {-1, 0}, {-1, -1}, {0, 2}, {-1, 2}},
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{{0, 0}, {1, 0}, {1, 1}, {0, -2}, {1, -2}},
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{{0, 0}, {1, 0}, {1, -1}, {0, 2}, {1, 2}},
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{{0, 0}, {-1, 0}, {-1, 1}, {0, -2}, {-1, -2}}},
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{{{1, 0}, {-1, 0}, {2, 0}, {-1, 1}, {2, -2}},
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{{0, 1}, {-1, 1}, {2, 1}, {-1, -1}, {2, 2}},
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{{-1, 0}, {1, 0}, {-2, 0}, {1, -1}, {-2, 2}},
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{{0, -1}, {1, -1}, {-2, -1}, {1, 1}, {-2, -2}}},
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{{{0, -1}, {0, 0}, {0, 0}, {0, 0}, {0, 0}},
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{{1, 0}, {0, 0}, {0, 0}, {0, 0}, {0, 0}},
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{{0, 1}, {0, 0}, {0, 0}, {0, 0}, {0, 0}},
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{{-1, 0}, {0, 0}, {0, 0}, {0, 0}, {0, 0}}}};
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typedef struct {
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Point p[4];
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uint8_t rotIdx;
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OffsetType offsetType;
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} Piece;
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// Shapes @ spawn locations, rotation point first
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static Piece shapes[] = {
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{.p = {{5, 1}, {4, 0}, {5, 0}, {6, 1}}, .rotIdx = 0, .offsetType = OffsetTypeCommon}, // Z
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{.p = {{5, 1}, {4, 1}, {5, 0}, {6, 0}}, .rotIdx = 0, .offsetType = OffsetTypeCommon}, // S
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{.p = {{5, 1}, {4, 1}, {6, 1}, {6, 0}}, .rotIdx = 0, .offsetType = OffsetTypeCommon}, // L
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{.p = {{5, 1}, {4, 0}, {4, 1}, {6, 1}}, .rotIdx = 0, .offsetType = OffsetTypeCommon}, // J
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{.p = {{5, 1}, {4, 1}, {5, 0}, {6, 1}}, .rotIdx = 0, .offsetType = OffsetTypeCommon}, // T
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{.p = {{5, 1}, {4, 1}, {6, 1}, {7, 1}}, .rotIdx = 0, .offsetType = OffsetTypeI}, // I
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{.p = {{5, 1}, {5, 0}, {6, 0}, {6, 1}}, .rotIdx = 0, .offsetType = OffsetTypeO} // O
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};
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typedef enum { GameStatePlaying, GameStateGameOver } GameState;
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typedef struct {
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bool playField[FIELD_HEIGHT][FIELD_WIDTH];
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Piece currPiece;
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uint16_t numLines;
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uint16_t fallSpeed;
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GameState gameState;
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FuriTimer* timer;
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} TetrisState;
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typedef enum {
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EventTypeTick,
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EventTypeKey,
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} EventType;
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typedef struct {
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EventType type;
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InputEvent input;
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} TetrisEvent;
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static void tetris_game_draw_border(Canvas* const canvas) {
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canvas_draw_line(canvas, 0, 0, 0, 127);
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canvas_draw_line(canvas, 0, 127, 63, 127);
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canvas_draw_line(canvas, 63, 127, 63, 0);
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canvas_draw_line(canvas, 2, 0, 2, 125);
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canvas_draw_line(canvas, 2, 125, 61, 125);
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canvas_draw_line(canvas, 61, 125, 61, 0);
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}
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static void tetris_game_draw_playfield(Canvas* const canvas, const TetrisState* tetris_state) {
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// Playfield: 11 x 24
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for(int y = 0; y < FIELD_HEIGHT; y++) {
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for(int x = 0; x < FIELD_WIDTH; x++) {
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if(tetris_state->playField[y][x]) {
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uint16_t xOffset = x * 5;
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uint16_t yOffset = y * 5;
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canvas_draw_rframe(
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canvas,
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BORDER_OFFSET + MARGIN_OFFSET + xOffset,
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BORDER_OFFSET + MARGIN_OFFSET + yOffset - 1,
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BLOCK_WIDTH,
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BLOCK_HEIGHT,
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1);
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canvas_draw_dot(
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canvas,
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BORDER_OFFSET + MARGIN_OFFSET + xOffset + 2,
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BORDER_OFFSET + MARGIN_OFFSET + yOffset + 1);
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canvas_draw_dot(
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canvas,
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BORDER_OFFSET + MARGIN_OFFSET + xOffset + 3,
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BORDER_OFFSET + MARGIN_OFFSET + yOffset + 1);
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canvas_draw_dot(
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canvas,
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BORDER_OFFSET + MARGIN_OFFSET + xOffset + 2,
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BORDER_OFFSET + MARGIN_OFFSET + yOffset + 2);
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}
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}
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}
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}
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static void tetris_game_render_callback(Canvas* const canvas, void* ctx) {
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const TetrisState* tetris_state = acquire_mutex((ValueMutex*)ctx, 25);
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if(tetris_state == NULL) {
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FURI_LOG_E("TetrisGame", "it null");
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return;
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}
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tetris_game_draw_border(canvas);
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tetris_game_draw_playfield(canvas, tetris_state);
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// Show score on the game field
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if(tetris_state->gameState == GameStatePlaying) {
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char buffer2[6];
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snprintf(buffer2, sizeof(buffer2), "%u", tetris_state->numLines);
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canvas_draw_str_aligned(canvas, 58, 10, AlignRight, AlignBottom, buffer2);
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}
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if(tetris_state->gameState == GameStateGameOver) {
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// 128 x 64
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canvas_set_color(canvas, ColorWhite);
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canvas_draw_box(canvas, 1, 52, 62, 24);
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canvas_set_color(canvas, ColorBlack);
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canvas_draw_frame(canvas, 1, 52, 62, 24);
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canvas_set_font(canvas, FontPrimary);
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canvas_draw_str(canvas, 4, 63, "Game Over");
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char buffer[13];
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snprintf(buffer, sizeof(buffer), "Lines: %u", tetris_state->numLines);
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canvas_set_font(canvas, FontSecondary);
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canvas_draw_str_aligned(canvas, 32, 73, AlignCenter, AlignBottom, buffer);
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}
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release_mutex((ValueMutex*)ctx, tetris_state);
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}
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static void tetris_game_input_callback(InputEvent* input_event, FuriMessageQueue* event_queue) {
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furi_assert(event_queue);
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TetrisEvent event = {.type = EventTypeKey, .input = *input_event};
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furi_message_queue_put(event_queue, &event, FuriWaitForever);
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}
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static void tetris_game_init_state(TetrisState* tetris_state) {
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tetris_state->gameState = GameStatePlaying;
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tetris_state->numLines = 0;
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tetris_state->fallSpeed = 500;
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memset(tetris_state->playField, 0, sizeof(tetris_state->playField));
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memcpy(&tetris_state->currPiece, &shapes[rand() % 7], sizeof(tetris_state->currPiece));
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furi_timer_start(tetris_state->timer, tetris_state->fallSpeed);
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}
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static void tetris_game_remove_curr_piece(TetrisState* tetris_state) {
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for(int i = 0; i < 4; i++) {
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uint8_t x = tetris_state->currPiece.p[i].x;
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uint8_t y = tetris_state->currPiece.p[i].y;
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tetris_state->playField[y][x] = false;
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}
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}
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static void tetris_game_render_curr_piece(TetrisState* tetris_state) {
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for(int i = 0; i < 4; i++) {
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uint8_t x = tetris_state->currPiece.p[i].x;
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uint8_t y = tetris_state->currPiece.p[i].y;
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tetris_state->playField[y][x] = true;
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}
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}
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static void tetris_game_rotate_shape(Point currShape[], Point newShape[]) {
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// Copy shape data
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for(int i = 0; i < 4; i++) {
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newShape[i] = currShape[i];
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}
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for(int i = 1; i < 4; i++) {
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int8_t relX = currShape[i].x - currShape[0].x;
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int8_t relY = currShape[i].y - currShape[0].y;
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// Matrix rotation thing
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int8_t newRelX = (relX * 0) + (relY * -1);
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int8_t newRelY = (relX * 1) + (relY * 0);
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newShape[i].x = currShape[0].x + newRelX;
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newShape[i].y = currShape[0].y + newRelY;
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}
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}
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static void tetris_game_apply_kick(Point points[], Point kick) {
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for(int i = 0; i < 4; i++) {
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points[i].x += kick.x;
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points[i].y += kick.y;
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}
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}
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static bool tetris_game_is_valid_pos(TetrisState* tetris_state, Point* shape) {
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for(int i = 0; i < 4; i++) {
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if(shape[i].x < 0 || shape[i].x > (FIELD_WIDTH - 1) ||
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tetris_state->playField[shape[i].y][shape[i].x] == true) {
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return false;
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}
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}
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return true;
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}
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static void tetris_game_try_rotation(TetrisState* tetris_state, Piece* newPiece) {
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uint8_t currRotIdx = tetris_state->currPiece.rotIdx;
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Point* rotatedShape = malloc(sizeof(Point) * 4);
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Point* kickedShape = malloc(sizeof(Point) * 4);
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memcpy(rotatedShape, &tetris_state->currPiece.p, sizeof(tetris_state->currPiece.p));
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tetris_game_rotate_shape(tetris_state->currPiece.p, rotatedShape);
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for(int i = 0; i < 5; i++) {
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memcpy(kickedShape, rotatedShape, (sizeof(Point) * 4));
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tetris_game_apply_kick(
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kickedShape, rotOffsetTranslation[newPiece->offsetType][currRotIdx][i]);
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if(tetris_game_is_valid_pos(tetris_state, kickedShape)) {
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memcpy(&newPiece->p, kickedShape, sizeof(newPiece->p));
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newPiece->rotIdx = (newPiece->rotIdx + 1) % 4;
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break;
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}
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}
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free(rotatedShape);
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free(kickedShape);
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}
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static bool tetris_game_row_is_line(bool row[]) {
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for(int i = 0; i < FIELD_WIDTH; i++) {
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if(row[i] == false) return false;
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}
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return true;
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}
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static void
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tetris_game_check_for_lines(TetrisState* tetris_state, uint8_t* lines, uint8_t* numLines) {
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for(int i = 0; i < FIELD_HEIGHT; i++) {
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if(tetris_game_row_is_line(tetris_state->playField[i])) {
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*(lines++) = i;
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*numLines += 1;
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}
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}
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}
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static bool tetris_game_piece_at_bottom(TetrisState* tetris_state, Piece* newPiece) {
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for(int i = 0; i < 4; i++) {
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Point* pos = (Point*)&newPiece->p;
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if(pos[i].y >= FIELD_HEIGHT || tetris_state->playField[pos[i].y][pos[i].x] == true) {
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return true;
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}
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}
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return false;
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}
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static void tetris_game_update_timer_callback(FuriMessageQueue* event_queue) {
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furi_assert(event_queue);
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TetrisEvent event = {.type = EventTypeTick};
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furi_message_queue_put(event_queue, &event, FuriWaitForever);
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}
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static void
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tetris_game_process_step(TetrisState* tetris_state, Piece* newPiece, bool wasDownMove) {
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if(tetris_state->gameState == GameStateGameOver) return;
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tetris_game_remove_curr_piece(tetris_state);
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if(wasDownMove) {
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if(tetris_game_piece_at_bottom(tetris_state, newPiece)) {
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furi_timer_stop(tetris_state->timer);
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tetris_game_render_curr_piece(tetris_state);
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uint8_t numLines = 0;
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uint8_t lines[] = {0, 0, 0, 0};
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tetris_game_check_for_lines(tetris_state, lines, &numLines);
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if(numLines > 0) {
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for(int i = 0; i < numLines; i++) {
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// zero out row
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for(int j = 0; j < FIELD_WIDTH; j++) {
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tetris_state->playField[lines[i]][j] = false;
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}
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// move all above rows down
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for(int k = lines[i]; k >= 0; k--) {
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for(int m = 0; m < FIELD_WIDTH; m++) {
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tetris_state->playField[k][m] =
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(k == 0) ? false : tetris_state->playField[k - 1][m];
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}
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}
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}
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uint16_t oldNumLines = tetris_state->numLines;
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tetris_state->numLines += numLines;
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if((oldNumLines / 10) % 10 != (tetris_state->numLines / 10) % 10) {
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tetris_state->fallSpeed -= 50;
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}
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}
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// Check for game over
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Piece* spawnedPiece = &shapes[rand() % 7];
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if(!tetris_game_is_valid_pos(tetris_state, spawnedPiece->p)) {
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tetris_state->gameState = GameStateGameOver;
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} else {
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memcpy(&tetris_state->currPiece, spawnedPiece, sizeof(tetris_state->currPiece));
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furi_timer_start(tetris_state->timer, tetris_state->fallSpeed);
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}
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}
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}
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if(tetris_game_is_valid_pos(tetris_state, newPiece->p)) {
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memcpy(&tetris_state->currPiece, newPiece, sizeof(tetris_state->currPiece));
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}
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tetris_game_render_curr_piece(tetris_state);
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}
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int32_t tetris_game_app() {
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FuriMessageQueue* event_queue = furi_message_queue_alloc(8, sizeof(TetrisEvent));
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TetrisState* tetris_state = malloc(sizeof(TetrisState));
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ValueMutex state_mutex;
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if(!init_mutex(&state_mutex, tetris_state, sizeof(TetrisState))) {
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FURI_LOG_E("TetrisGame", "cannot create mutex\r\n");
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furi_message_queue_free(event_queue);
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free(tetris_state);
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return 255;
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}
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// Not doing this eventually causes issues with TimerSvc due to not sleeping/yielding enough in this task
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TaskHandle_t timer_task = xTaskGetHandle(configTIMER_SERVICE_TASK_NAME);
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TaskHandle_t curr_task = xTaskGetHandle("Tetris Game");
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uint32_t origTimerPrio = uxTaskPriorityGet(timer_task);
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uint32_t myPrio = uxTaskPriorityGet(curr_task);
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vTaskPrioritySet(timer_task, myPrio + 1);
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ViewPort* view_port = view_port_alloc();
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view_port_set_orientation(view_port, ViewPortOrientationVertical);
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view_port_draw_callback_set(view_port, tetris_game_render_callback, &state_mutex);
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view_port_input_callback_set(view_port, tetris_game_input_callback, event_queue);
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// Open GUI and register view_port
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Gui* gui = furi_record_open(RECORD_GUI);
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gui_add_view_port(gui, view_port, GuiLayerFullscreen);
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tetris_state->timer =
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furi_timer_alloc(tetris_game_update_timer_callback, FuriTimerTypePeriodic, event_queue);
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tetris_game_init_state(tetris_state);
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TetrisEvent event;
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Piece* newPiece = malloc(sizeof(Piece));
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uint8_t downRepeatCounter = 0;
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for(bool processing = true; processing;) {
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// This 10U implicitly sets the game loop speed. downRepeatCounter relies on this value
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FuriStatus event_status = furi_message_queue_get(event_queue, &event, 10U);
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TetrisState* tetris_state = (TetrisState*)acquire_mutex_block(&state_mutex);
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memcpy(newPiece, &tetris_state->currPiece, sizeof(tetris_state->currPiece));
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bool wasDownMove = false;
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if(!furi_hal_gpio_read(&gpio_button_right)) {
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if(downRepeatCounter > 3) {
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for(int i = 0; i < 4; i++) {
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newPiece->p[i].y += 1;
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}
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downRepeatCounter = 0;
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wasDownMove = true;
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} else {
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downRepeatCounter++;
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}
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}
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if(event_status == FuriStatusOk) {
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if(event.type == EventTypeKey) {
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if(event.input.type == InputTypePress || event.input.type == InputTypeLong ||
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event.input.type == InputTypeRepeat) {
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switch(event.input.key) {
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case InputKeyUp:
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break;
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case InputKeyDown:
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break;
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case InputKeyRight:
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for(int i = 0; i < 4; i++) {
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newPiece->p[i].x += 1;
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}
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break;
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case InputKeyLeft:
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for(int i = 0; i < 4; i++) {
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newPiece->p[i].x -= 1;
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}
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break;
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case InputKeyOk:
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if(tetris_state->gameState == GameStatePlaying) {
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tetris_game_remove_curr_piece(tetris_state);
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tetris_game_try_rotation(tetris_state, newPiece);
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tetris_game_render_curr_piece(tetris_state);
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} else {
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tetris_game_init_state(tetris_state);
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}
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break;
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case InputKeyBack:
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processing = false;
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break;
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default:
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break;
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}
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}
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} else if(event.type == EventTypeTick) {
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// TODO: This is inverted. it returns true when the button is not pressed.
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// see macro in input.c and do that
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if(furi_hal_gpio_read(&gpio_button_right)) {
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for(int i = 0; i < 4; i++) {
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newPiece->p[i].y += 1;
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}
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wasDownMove = true;
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}
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}
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}
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tetris_game_process_step(tetris_state, newPiece, wasDownMove);
|
|
|
|
view_port_update(view_port);
|
|
release_mutex(&state_mutex, tetris_state);
|
|
}
|
|
|
|
furi_timer_free(tetris_state->timer);
|
|
view_port_enabled_set(view_port, false);
|
|
gui_remove_view_port(gui, view_port);
|
|
furi_record_close(RECORD_GUI);
|
|
view_port_free(view_port);
|
|
furi_message_queue_free(event_queue);
|
|
delete_mutex(&state_mutex);
|
|
vTaskPrioritySet(timer_task, origTimerPrio);
|
|
free(newPiece);
|
|
free(tetris_state);
|
|
|
|
return 0;
|
|
} |