unleashed-firmware/applications/external/solitaire/common/card.h
2023-03-15 01:25:18 +03:00

192 lines
No EOL
5 KiB
C

#pragma once
#include <gui/gui.h>
#include <math.h>
#include <stdlib.h>
#include "dml.h"
#define CARD_HEIGHT 23
#define CARD_HALF_HEIGHT 11
#define CARD_WIDTH 17
#define CARD_HALF_WIDTH 8
//region types
typedef struct {
uint8_t pip; //Pip index 0:spades, 1:hearths, 2:diamonds, 3:clubs
uint8_t character; //Card letter [0-12], 0 means 2, 12 is Ace
bool disabled;
bool flipped;
} Card;
typedef struct {
uint8_t deck_count; //Number of decks used
Card* cards; //Cards in the deck
int card_count;
int index; //Card index (to know where we at in the deck)
} Deck;
typedef struct {
Card* cards; //Cards in the deck
uint8_t index; //Current index
uint8_t max; //How many cards we want to store
} Hand;
//endregion
void set_card_graphics(const Icon* graphics);
/**
* Gets card coordinates at the index (range: 0-20).
*
* @param index Index to check 0-20
* @return Position of the card
*/
Vector card_pos_at_index(uint8_t index);
/**
* Draws card at a given coordinate (top-left corner)
*
* @param pos_x X position
* @param pos_y Y position
* @param pip Pip index 0:spades, 1:hearths, 2:diamonds, 3:clubs
* @param character Letter [0-12] 0 is 2, 12 is A
* @param canvas Pointer to Flipper's canvas object
*/
void draw_card_at(int8_t pos_x, int8_t pos_y, uint8_t pip, uint8_t character, Canvas* const canvas);
/**
* Draws card at a given coordinate (top-left corner)
*
* @param pos_x X position
* @param pos_y Y position
* @param pip Pip index 0:spades, 1:hearths, 2:diamonds, 3:clubs
* @param character Letter [0-12] 0 is 2, 12 is A
* @param inverted Invert colors
* @param canvas Pointer to Flipper's canvas object
*/
void draw_card_at_colored(
int8_t pos_x,
int8_t pos_y,
uint8_t pip,
uint8_t character,
bool inverted,
Canvas* const canvas);
/**
* Draws 'count' cards at the bottom right corner
*
* @param cards List of cards
* @param count Count of cards
* @param canvas Pointer to Flipper's canvas object
*/
void draw_deck(const Card* cards, uint8_t count, Canvas* const canvas);
/**
* Draws card back at a given coordinate (top-left corner)
*
* @param pos_x X coordinate
* @param pos_y Y coordinate
* @param canvas Pointer to Flipper's canvas object
*/
void draw_card_back_at(int8_t pos_x, int8_t pos_y, Canvas* const canvas);
/**
* Generates the deck
*
* @param deck_ptr Pointer to the deck
* @param deck_count Number of decks
*/
void generate_deck(Deck* deck_ptr, uint8_t deck_count);
/**
* Shuffles the deck
*
* @param deck_ptr Pointer to the deck
*/
void shuffle_deck(Deck* deck_ptr);
/**
* Calculates the hand count for blackjack
*
* @param cards List of cards
* @param count Count of cards
* @return Hand value
*/
uint8_t hand_count(const Card* cards, uint8_t count);
/**
* Draws card animation
*
* @param animatingCard Card to animate
* @param from Starting position
* @param control Quadratic lerp control point
* @param to End point
* @param t Current time (0-1)
* @param extra_margin Use extra margin at the end (arrives 0.2 unit before the end so it can stay there a bit)
* @param canvas Pointer to Flipper's canvas object
*/
void draw_card_animation(
Card animatingCard,
Vector from,
Vector control,
Vector to,
float t,
bool extra_margin,
Canvas* const canvas);
/**
* Init hand pointer
* @param hand_ptr Pointer to hand
* @param count Number of cards we want to store
*/
void init_hand(Hand* hand_ptr, uint8_t count);
/**
* Free hand resources
* @param hand_ptr Pointer to hand
*/
void free_hand(Hand* hand_ptr);
/**
* Add card to hand
* @param hand_ptr Pointer to hand
* @param card Card to add
*/
void add_to_hand(Hand* hand_ptr, Card card);
/**
* Draw card placement position at coordinate
* @param pos_x X coordinate
* @param pos_y Y coordinate
* @param highlighted Apply highlight effect
* @param canvas Canvas object
*/
void draw_card_space(int16_t pos_x, int16_t pos_y, bool highlighted, Canvas* const canvas);
/**
* Draws a column of card, displaying the last [max_cards] cards on the list
* @param hand Hand object
* @param pos_x X coordinate to draw
* @param pos_y Y coordinate to draw
* @param highlight Index to highlight, negative means no highlight
* @param canvas Canvas object
*/
void draw_hand_column(
Hand hand,
int16_t pos_x,
int16_t pos_y,
int8_t highlight,
Canvas* const canvas);
/**
* Removes a card from the deck (Be aware, if you remove the first item, the deck index will be at -1 so you have to handle that)
* @param index Index to remove
* @param deck Deck reference
* @return The removed card
*/
Card remove_from_deck(uint16_t index, Deck* deck);
int first_non_flipped_card(Hand hand);
void extract_hand_region(Hand* hand, Hand* to, uint8_t start_index);
void add_hand_region(Hand* to, Hand* from);