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#include "curses_win.h"
int zoom_months[] = {60, 48, 36, 24, 12, 9, 6, 3, 1}, zoom_change_x_months[] = {12, 12, 12, 12, 12, 3, 3, 3, 2};
void interface_print(const char* symbol) {
Info* symbol_info = api_info_init();
strcpy(symbol_info->symbol, symbol);
if (api_store_all_info(symbol_info) == NULL) {
api_info_destroy(&symbol_info);
RET_MSG("Invalid symbol.")
}
if (symbol_info->points == NULL) { // If a crypto print info to stdout and return
info_print(symbol_info);
api_info_destroy(&symbol_info);
return;
}
initscr();
if (!has_colors())
GOTO_CLEAN_MSG("Your terminal does not support color.")
int rows, cols;
getmaxyx(stdscr, rows, cols);
start_color();
init_pair(2, COLOR_WHITE, COLOR_BLACK); // Init black background, white foreground
bkgd(BLACK); // set background/foreground
curs_set(FALSE);
WINDOW* header_window = newwin(2, cols - 13, 0, 13);
WINDOW* graph_window = newwin(GRAPH_HEIGHT, GRAPH_WIDTH, GRAPH_Y, GRAPH_X);
WINDOW* company_window = newwin(COMPANY_HEIGHT, COMPANY_WIDTH, COMPANY_Y, COMPANY_X);
WINDOW* news_window = newwin(NEWS_HEIGHT, NEWS_WIDTH, NEWS_Y, NEWS_X);
WINDOW* peer_window = newwin(PEERS_HEIGHT, PEERS_WIDTH, PEERS_Y, PEERS_X);
wbkgd(header_window, BLACK);
wbkgd(graph_window, BLACK);
wbkgd(company_window, BLACK);
wbkgd(news_window, BLACK);
wbkgd(peer_window, BLACK);
int graph_rows, graph_cols;
getmaxyx(graph_window, graph_rows, graph_cols);
graph_cols -= 11; // 10 offset to give space for graph labels + 1 for right side
graph_rows -= 3; // Make space for zoom indicator
graph_rows -= graph_rows % ROWS_SPACING; // Round down to multiple of 5
if (graph_cols < GRAPH_COLS_MIN || graph_rows < GRAPH_ROWS_MIN) // Exits if the terminal is too small
GOTO_CLEAN_MSG("Terminal not large enough.")
header_printw(header_window, symbol_info); // Print to windows
info_printw(company_window, symbol_info);
news_printw(news_window, symbol_info);
peers_printw(peer_window, symbol_info);
wrefresh(header_window); // Refresh other windows before graph otherwise they won't print before next getch()
wrefresh(company_window);
wrefresh(news_window);
wrefresh(peer_window);
graph_printw(graph_window, symbol_info, NULL); // No refresh needed since getch()
cleanup:
endwin();
api_info_destroy(&symbol_info);
}
void header_printw(WINDOW* window, Info* symbol_info) {
if (symbol_info->intraday_time != EMPTY) {
char time_str[32];
time_t time = symbol_info->intraday_time; // divide into second instead of milliseconds
struct tm* ts = localtime(&time);
strftime(time_str, 32, "%F %T", ts);
mvwprintw(window, 0, 0, "%s", time_str);
}
mvwprintw(window, 0, (int) (15 + strlen(symbol_info->name) + strlen(symbol_info->symbol)), "24H 7D ");
if (symbol_info->price_30d != EMPTY)
wprintw(window, "30D");
mvwprintw(window, 1, 0, "%s %s %8.2lf %6.2lf%% %6.2lf%% ", symbol_info->name, symbol_info->symbol,
symbol_info->price, 100 * (symbol_info->price / symbol_info->price_last_close - 1),
100 * (symbol_info->price / symbol_info->price_7d - 1));
if (symbol_info->price_30d != EMPTY)
wprintw(window, "%6.2lf%%", 100 * (symbol_info->price / symbol_info->price_30d - 1));
}
void info_print(Info* symbol_info) {
if (strcmp(symbol_info->name, "") != 0)
printf("Name: %s\n", symbol_info->name);
if (strcmp(symbol_info->symbol, "") != 0)
printf("Symbol: %s\n", symbol_info->symbol);
if (symbol_info->price != EMPTY)
printf("Price: $%lf\n", symbol_info->price);
if (symbol_info->price_last_close != EMPTY)
printf("Percent change 24h: %.2lf%%\n", 100 * (symbol_info->price / symbol_info->price_last_close - 1));
if (symbol_info->price_7d != EMPTY)
printf("Percent change 7d: %.2lf%%\n", 100 * (symbol_info->price / symbol_info->price_7d - 1));
if (symbol_info->price_30d != EMPTY)
printf("Percent change 30d: %.2lf%%\n", 100 * (symbol_info->price / symbol_info->price_30d - 1));
if (symbol_info->div_yield != EMPTY)
printf("Dividend yield: %.2lf%%\n", symbol_info->div_yield);
if (symbol_info->marketcap != EMPTY)
printf("Market Cap: $%ld\n", symbol_info->marketcap);
if (symbol_info->volume_1d != EMPTY)
printf("Volume 24h: $%ld\n", symbol_info->volume_1d);
}
void info_printw(WINDOW* window, Info* symbol_info) {
if (symbol_info->description[0] != '\0')
mvwprintw(window, 0, 0, "%s\n\n", symbol_info->description);
else mvwprintw(window, 0, 0, "Description unavailable.\n\n");
if (symbol_info->ceo[0] != '\0')
wprintw(window, "CEO: %s", symbol_info->ceo);
else wprintw(window, "CEO unavailable.");
if (symbol_info->website[0] != '\0')
mvwprintw(window, getcury(window), getmaxx(window) / 2, "Website: %s\n", symbol_info->website);
else mvwprintw(window, getcury(window), getmaxx(window) / 2, "Website unavailable.\n");
if (symbol_info->sector[0] != '\0')
wprintw(window, "Sector: %s", symbol_info->sector);
else wprintw(window, "Sector unavailable.");
if (symbol_info->industry[0] != '\0')
mvwprintw(window, getcury(window), getmaxx(window) / 2, "Industry: %s\n", symbol_info->industry);
else mvwprintw(window, getcury(window), getmaxx(window) / 2, "Industry unavailable.\n");
if (symbol_info->revenue != EMPTY)
wprintw(window, "Revenue: %ld", symbol_info->revenue);
else wprintw(window, "Revenue unavailable.");
if (symbol_info->gross_profit != EMPTY)
mvwprintw(window, getcury(window), getmaxx(window) / 2, "Gross Profit: %ld\n", symbol_info->gross_profit);
else mvwprintw(window, getcury(window), getmaxx(window) / 2, "Gross Profit unavailable.\n");
if (symbol_info->cash != EMPTY)
wprintw(window, "Cash: %ld", symbol_info->cash);
else wprintw(window, "Cash unavailable.");
if (symbol_info->debt != EMPTY)
mvwprintw(window, getcury(window), getmaxx(window) / 2, "Debt: %ld\n", symbol_info->debt);
else mvwprintw(window, getcury(window), getmaxx(window) / 2, "Debt unavailable.\n");
if (symbol_info->marketcap != EMPTY)
wprintw(window, "Market Cap: %ld", symbol_info->marketcap);
else wprintw(window, "Market Cap unavailable.");
if (symbol_info->volume_1d != EMPTY)
mvwprintw(window, getcury(window), getmaxx(window) / 2, "Volume: %ld\n", symbol_info->volume_1d);
else mvwprintw(window, getcury(window), getmaxx(window) / 2, "Volume unavailable.\n");
if (symbol_info->pe_ratio != EMPTY)
wprintw(window, "P/E Ratio: %lf", symbol_info->pe_ratio);
else wprintw(window, "P/E Ratio unavailable.");
if (symbol_info->div_yield != EMPTY)
mvwprintw(window, getcury(window), getmaxx(window) / 2, "Dividend Yield: %lf\n\n", symbol_info->div_yield);
else mvwprintw(window, getcury(window), getmaxx(window) / 2, "Dividend Yield unavailable.\n\n");
for (int i = 0; i < QUARTERS && symbol_info->fiscal_period[i][0] != '\0'; i++)
mvwprintw(window, getcury(window), 4 + i * getmaxx(window) / QUARTERS, "%s",
symbol_info->fiscal_period[i]);
waddch(window, '\n');
if (symbol_info->eps[0] != EMPTY)
mvwprintw(window, getcury(window), 0, "EPS ");
for (int i = 0; i < QUARTERS && symbol_info->eps[i] != EMPTY; i++)
mvwprintw(window, getcury(window), 4 + i * getmaxx(window) / QUARTERS, "%.2lf",
symbol_info->eps[i]);
waddch(window, '\n');
if (symbol_info->eps_year_ago[0] != EMPTY)
mvwprintw(window, getcury(window), 0, "1Y ");
for (int i = 0; i < QUARTERS && symbol_info->eps_year_ago[i] != EMPTY; i++)
mvwprintw(window, getcury(window), 4 + i * getmaxx(window) / QUARTERS, "%.2lf", symbol_info->eps_year_ago[i]);
}
void news_print(const char* symbol, int num_articles) {
if (num_articles > 50 || num_articles < 1)
RET_MSG("You cannot request more than 50 articles.");
Info* symbol_info = api_info_init();
strcpy(symbol_info->symbol, symbol);
symbol_info->num_articles = num_articles;
if (iex_store_news(symbol_info) == NULL) {
api_info_destroy(&symbol_info);
RET_MSG("Invalid symbol");
}
for (int i = 0; i < symbol_info->num_articles; i++)
printf("%s | %s | %s\n%s\n%s | Related: %s\n\n",
symbol_info->articles[i]->headline, symbol_info->articles[i]->source, symbol_info->articles[i]->date,
symbol_info->articles[i]->summary, symbol_info->articles[i]->url, symbol_info->articles[i]->related);
api_info_destroy(&symbol_info);
}
void news_printw(WINDOW* window, Info* symbol_info) {
if (symbol_info->num_articles == EMPTY)
wprintw(window, "News unavailable.");
for (int i = 0; i < symbol_info->num_articles; i++)
wprintw(window, "%s | %s | %s\n%s\n%s | Related: %s\n\n",
symbol_info->articles[i]->headline, symbol_info->articles[i]->source, symbol_info->articles[i]->date,
symbol_info->articles[i]->summary, symbol_info->articles[i]->url, symbol_info->articles[i]->related);
}
void peers_printw(WINDOW* window, Info* symbol_info) {
if (symbol_info->peers == NULL) {
wprintw(window, "Peers unavailable.");
return;
} else wprintw(window, "Peers:\n\nSYMBOL PRICE 24H%% 7D%% 30D%%");
Info* idx;
for (size_t i = 0; i < symbol_info->peers->length; i++) {
idx = symbol_info->peers->array[i];
mvwprintw(window, (int) i + 3, 0, "%6s %8.2lf %6.2lf%% %6.2lf%% %6.2lf%%", idx->symbol, idx->price,
100 * (idx->price / idx->price_last_close - 1), 100 * (idx->price / idx->price_7d - 1),
100 * (idx->price / idx->price_30d - 1));
}
}
void graph_print(const char* symbol, const char* symbol2) {
Info* symbol_info = api_info_init(), * symbol_info2 = NULL;
strcpy(symbol_info->symbol, symbol);
if (api_store_check_info(symbol_info) == NULL) {
api_info_destroy(&symbol_info);
RET_MSG("Invalid symbol")
}
if (symbol2 != NULL) {
symbol_info2 = api_info_init();
strcpy(symbol_info2->symbol, symbol2);
if (api_store_check_info(symbol_info2) == NULL) {
api_info_destroy(&symbol_info);
api_info_destroy(&symbol_info2);
RET_MSG("Invalid symbol")
}
}
initscr();
if (!has_colors()) { // compare command will use two colors to differentiate, so color must
endwin(); // be supported. Must endwin() before puts()
RET_MSG("Your terminal does not support color.");
}
graph_printw(stdscr, symbol_info, symbol_info2);
api_info_destroy(&symbol_info);
if (symbol_info2 != NULL)
api_info_destroy(&symbol_info2);
endwin();
}
void graph_printw(WINDOW* window, Info* symbol_info, Info* symbol_info2) {
noecho(); // Don't echo keystrokes
keypad(window, TRUE); // Enables extra keystrokes
curs_set(0); // Hides cursor
start_color(); // Enable colors for comparison
init_pair(1, COLOR_RED, COLOR_BLACK); // Init color red
init_pair(2, COLOR_WHITE, COLOR_BLACK); // Init black background, white foreground
wbkgd(window, BLACK); // set background/foreground
time_t now = time(NULL);
struct tm today_date = *localtime(&now), start_date = today_date, furthest_back_date = today_date, end;
start_date.tm_year -= 5, furthest_back_date.tm_year -= 5; // Go back five years
double seconds = difftime(mktime(&today_date), mktime(&furthest_back_date));
// Calculate total number of trading days between today and five years ago
int trading_days = (int) ((1.0 / DAYS_TO_BUSINESS_DAYS_RATIO) * seconds / 86400.0);
int total_data_points = 0, total_data_points2 = 0;
for (int i = 0; symbol_info->points[i] != '\0'; i++) // Calculate total number of data points in the security. This may not
total_data_points++; // be equal to trading days if the security is younger than 5 years old
if (trading_days - total_data_points > 0) // If younger than 5, realloc with num of trading days and fill with EMPTY
symbol_info->points = graph_fill_empty(symbol_info->points, total_data_points, trading_days);
if (symbol_info2 != NULL) {
for (int i = 0; symbol_info2->points[i] != '\0'; i++)
total_data_points2++;
if (trading_days - total_data_points2 > 0)
symbol_info2->points = graph_fill_empty(symbol_info2->points, total_data_points2, trading_days);
}
int ch, zoom = ZOOM_5y;
graph_draw(window, symbol_info, symbol_info2, &start_date, zoom); // Initial graph of 5 year history
while ((ch = wgetch(window)) != 'q') { // Main input loop -- end if keypress 'q'
if ((ch == KEY_UP && zoom != ZOOM_1m) || (ch == KEY_DOWN && zoom != ZOOM_5y) ||
(zoom != ZOOM_5y && (ch == KEY_LEFT || ch == KEY_RIGHT))) { // UP / DOWN / LEFT / RIGHT
if (ch == KEY_UP) {
zoom++;
start_date.tm_mon += zoom_change_x_months[zoom];
} else if (ch == KEY_RIGHT || ch == KEY_DOWN) {
if (ch == KEY_DOWN)
zoom--;
if (zoom == ZOOM_1m)
start_date.tm_mon += 1; // Moves only one month if zoom is 1 month
else start_date.tm_mon += zoom_change_x_months[zoom];
} else { // LEFT
if (zoom == ZOOM_1m)
start_date.tm_mon -= 1; // Moves only one month if zoom is 1 month
else start_date.tm_mon -= zoom_change_x_months[zoom];
if (difftime(mktime(&start_date), mktime(&furthest_back_date)) < 0)
start_date = furthest_back_date; // Can't go back past furthest_date
}
end = start_date; // If trying to go past current date, set start to (zoom level - current date)
end.tm_mon += zoom_months[zoom];
if (difftime(mktime(&end), mktime(&today_date)) > 0) {
start_date = today_date;
start_date.tm_mon -= zoom_months[zoom];
}
graph_draw(window, symbol_info, symbol_info2, &start_date, zoom);
}
}
}
void graph_draw(WINDOW* window, Info* symbol_info, Info* symbol_info2, struct tm* start_time, int zoom) {
wmove(window, 0, 0); // Instead of clear()ing, move to the top left corner and re-print
int cols, rows;
getmaxyx(window, rows, cols);
cols -= 11; // 10 offset to give space for graph labels + 1 for right side
rows -= 3; // Make space for zoom indicator
rows -= rows % ROWS_SPACING; // Round down to multiple of 5
if (cols < GRAPH_COLS_MIN || rows < GRAPH_ROWS_MIN) // Exits if the terminal is too small
RET_MSG("Terminal not large enough.")
time_t now = time(NULL);
struct tm end_date = *start_time, * five_y = localtime(&now);
end_date.tm_mon += zoom_months[zoom], five_y->tm_year -= 5;
double seconds = difftime(mktime(&end_date), mktime(start_time));
int trading_days = (int) ((1.0 / DAYS_TO_BUSINESS_DAYS_RATIO) * seconds / 86400.0); // Total trading days to print
seconds = difftime(mktime(start_time), mktime(five_y));
int starting_index = (int) ((1.0 / DAYS_TO_BUSINESS_DAYS_RATIO) * seconds / 86400.0);
double max = symbol_info->points[starting_index], min = symbol_info->points[starting_index];
int k = 0;
while (max == EMPTY) // If initial max is EMPTY, get first non-EMPTY value
max = symbol_info->points[++k];
if (k > 0) // Do the same thing with min
min = max;
for (int i = starting_index + 1; i < trading_days + starting_index; i++) {
if (symbol_info->points[i] != EMPTY) { // Ignore EMPTY values
if (symbol_info->points[i] > max) // Find max and min values for graph upper/lower bounds
max = symbol_info->points[i];
if (symbol_info->points[i] < min)
min = symbol_info->points[i];
}
}
double line_diff = (max - min) / rows, day_close; // Each line includes data point up to line_diff below
double max2 = 0, min2 = 0, line_diff2 = 0, day_close2 = 0;
if (symbol_info2 != NULL) {
max2 = symbol_info2->points[starting_index], min2 = symbol_info2->points[starting_index];
k = 0;
while (max2 == EMPTY) // If initial max is EMPTY, get first non-EMPTY value
max2 = symbol_info2->points[++k];
if (k > 0) // Do the same thing with min
min2 = max2;
for (int i = starting_index + 1; i < trading_days + starting_index; i++) {
if (symbol_info2->points[i] != EMPTY) { // Ignore EMPTY values
if (symbol_info2->points[i] > max2) // Find max and min values for graph upper/lower bounds
max2 = symbol_info2->points[i];
if (symbol_info2->points[i] < min2)
min2 = symbol_info2->points[i];
}
}
line_diff2 = (max2 - min2) / rows; // Each line includes data point up to line_diff below
}
for (int i = rows; i >= 0; i--) {
if (i % ROWS_SPACING == 0) // Print y-axis price labels with width 10
wprintw(window, "%9.2lf ", (max - ((rows - i) * line_diff)));
else if (symbol_info2 != NULL && (i - 1) % ROWS_SPACING == 0) { // Print comparison price label above
wattron(window, RED);
wprintw(window, "%9.2lf ", (max2 - ((rows - i) * line_diff2)));
wattroff(window, RED);
} else wprintw(window, " "); // Indent width 10 otherwise
for (int j = 0; j < cols; j++) {
day_close = symbol_info->points[starting_index + (int) ((double) j * trading_days / cols)]; // Get close prices
if (symbol_info2 != NULL)
day_close2 = symbol_info2->points[starting_index + (int) ((double) j * trading_days / cols)];
if (day_close <= (max - ((rows - i) * line_diff)) && day_close > (min + ((i - 1) * line_diff)))
waddch(window, ACS_DIAMOND); // Print diamond if close price is within line_diff
else if (symbol_info2 != NULL && day_close2 <= (max2 - ((rows - i) * line_diff2)) &&
day_close2 > (min2 + ((i - 1) * line_diff2))) {
wattron(window, RED);
waddch(window, ACS_DIAMOND); // Print RED diamond if close price is within line_diff
wattroff(window, RED);
} else if (i % ROWS_SPACING == 0 && j % COLS_SPACING == 0) // Cross on corners
waddch(window, ACS_PLUS);
else if (i % ROWS_SPACING == 0) // Horizontal line every ROWS_SPACING lines
waddch(window, ACS_HLINE);
else if (j % COLS_SPACING == 0) // Vertical line every COLS_SPACING lines
waddch(window, ACS_VLINE);
else // Otherwise prints a space
waddch(window, ' ');
}
waddch(window, '\n'); // Newline on line end
}
wprintw(window, " "); // Indent to center date labels
char time_string[16];
double days_per_col_spacing = (DAYS_TO_BUSINESS_DAYS_RATIO * trading_days) / (cols / COLS_SPACING);
struct tm copy = *start_time;
for (int i = 0; i < cols; i++) {
if (i % (2 * COLS_SPACING) == 0 && cols - i > 5) { // Print x-axis date labels every two
if (i != 0)
copy.tm_sec += days_per_col_spacing * 2.0 * 86400.0;
mktime(©);
strftime(time_string, 16, "%m/%d/%Y", ©);
wprintw(window, "%s ", time_string); // Width 2 * COLS_SPACING
}
}
waddch(window, '\n');
waddch(window, '\n');
wprintw(window, "%s", symbol_info->symbol); // Empty line as spacing, then print key containing the symbol(s) and diamond
// with color
waddch(window, ACS_DIAMOND);
if (symbol_info2 != NULL) {
wattron(window, RED);
wprintw(window, " %s", symbol_info2->symbol);
waddch(window, ACS_DIAMOND);
wattroff(window, RED);
}
waddch(window, ' ');
size_t offset = (cols / 2) - (11 + strlen(symbol_info->symbol)); // Center zoom level
if (symbol_info2 != NULL)
offset -= strlen(symbol_info2->symbol) + 2;
for (unsigned int i = 0; i < offset; i++)
waddch(window, ' '); // Center text
const char* str[9] = {"5y", "4y", "3y", "2y", "1y", "9m", "6m", "3m", "1m"}; // Zoom level
for (int i = 0; i < 9; i++) {
if (zoom == i)
wattron(window, A_STANDOUT); // Highlight current zoom level
waddstr(window, str[i]);
wattroff(window, A_STANDOUT);
waddch(window, ' ');
}
}
double* graph_fill_empty(double* points, int size, int trading_days) {
int difference = trading_days - size;
points = realloc(points, (size_t) sizeof(double) * (trading_days + 1)); // Realloc for number of trading days
pointer_alloc_check(points);
points[trading_days] = '\0';
memmove(&points[difference], points, sizeof(double) * size); // Move points to end
for (int i = 0; i < difference; i++) // Initialize newly allocated bytes as EMPTY
points[i] = EMPTY;
return points;
}
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