cava/output/terminal_ncurses.c

#include <curses.h>
#include <wchar.h>
#include <stdlib.h>

int gradient_size = 64;

struct colors {
	NCURSES_COLOR_T color;
	NCURSES_COLOR_T R;
	NCURSES_COLOR_T G;
	NCURSES_COLOR_T B;
};

#define COLOR_REDEFINITION -2

#define MAX_COLOR_REDEFINITION 256

//static struct colors the_color_redefinitions[MAX_COLOR_REDEFINITION];


static void parse_color(char* color_string, struct colors* color) {
	if (color_string[0] == '#') {
		if (!can_change_color()) {
			cleanup_terminal_ncurses();
			fprintf(stderr, "Your terminal can not change color definitions, "
					"please use one of the predefined colors.\n");
			exit(EXIT_FAILURE);
		}
		color->color = COLOR_REDEFINITION;
		sscanf(++color_string, "%02hx%02hx%02hx", &color->R, &color->G, &color->B);
	}
}
/*
static void remember_color_definition(NCURSES_COLOR_T color_number) {
	int index = color_number - 1; // array starts from zero and colors - not
	if(the_color_redefinitions[index].color == 0) {
		the_color_redefinitions[index].color = color_number;
		color_content(color_number,
			&the_color_redefinitions[index].R,
			&the_color_redefinitions[index].G,
			&the_color_redefinitions[index].B);
	}
}
*/
// ncurses use color range [0, 1000], and we - [0, 255]
#define CURSES_COLOR_COEFFICIENT( X ) (( X ) * 1000.0 / 0xFF + 0.5)
#define COLORS_STRUCT_NORMALIZE( X ) CURSES_COLOR_COEFFICIENT( X.R ), \
	CURSES_COLOR_COEFFICIENT( X.G ), CURSES_COLOR_COEFFICIENT( X.B )

static NCURSES_COLOR_T change_color_definition(NCURSES_COLOR_T color_number,
char* const color_string, NCURSES_COLOR_T predef_color) {
	struct colors color = { 0 };
	parse_color(color_string, &color);
	NCURSES_COLOR_T return_color_number = predef_color;
	if (color.color == COLOR_REDEFINITION) {
		//remember_color_definition(color_number);
		init_color(color_number, COLORS_STRUCT_NORMALIZE(color));
		return_color_number = color_number;
	}
	return return_color_number;
}


void init_terminal_ncurses(char* const fg_color_string,
char* const bg_color_string, int predef_fg_color, int predef_bg_color, int gradient,
 int gradient_count, char **gradient_colors, int* width, int* height) {
	initscr();
	curs_set(0);
	timeout(0);
	noecho();
	start_color();
	use_default_colors();

	getmaxyx(stdscr, *height, *width);
	clear();

	NCURSES_COLOR_T color_pair_number = 1;

	NCURSES_COLOR_T bg_color_number;
	bg_color_number = change_color_definition(0, bg_color_string, predef_bg_color);

	if (!gradient) {

		NCURSES_COLOR_T fg_color_number;
		fg_color_number = change_color_definition(1, fg_color_string, predef_fg_color);

		init_pair(color_pair_number, fg_color_number, bg_color_number);

	} else if (gradient) {

		// 0 -> col1, 1-> col1<=>col2, 2 -> col2 and so on
		short unsigned int rgb[2 * gradient_count - 1][3];
		char next_color[14];

		gradient_size = *height;

		if (gradient_size > COLORS) gradient_size = COLORS - 1;
	
		if (gradient_size > COLOR_PAIRS) gradient_size = COLOR_PAIRS - 1;

		if (gradient_size > MAX_COLOR_REDEFINITION) gradient_size = MAX_COLOR_REDEFINITION - 1;

		for(int i = 0;i < gradient_count;i++){
			int col = (i + 1)*2 - 2;
			sscanf(gradient_colors[i]+1, "%02hx%02hx%02hx", &rgb[col][0], &rgb[col][1], &rgb[col][2]);
		}

		//sscanf(gradient_color_1 + 1, "%02hx%02hx%02hx", &rgb[0][0], &rgb[0][1], &rgb[0][2]);
		//sscanf(gradient_color_2 + 1, "%02hx%02hx%02hx", &rgb[1][0], &rgb[1][1], &rgb[1][2]);

		int individual_size = gradient_size/(gradient_count - 1);

		int row = 0;

		for(int i = 0;i < gradient_count - 1;i++){

			int col = (i + 1)* 2 - 2;
			if(i == gradient_count - 1)
				col = 2*(gradient_count - 1) - 2;

			for(int j = 0; j < individual_size;j++){

				for(int k = 0; k < 3; k++) {
					rgb[col+1][k] = rgb[col][k] + (rgb[col+2][k] - rgb[col][k]) * (j / (individual_size * 0.85));
					if (rgb[col+1][k] > 255) rgb[col][k] = 0;
					if ( j > individual_size * 0.85 ) rgb[col+1][k] = rgb[col+2][k];
				}

				sprintf(next_color,"#%02x%02x%02x",rgb[col+1][0], rgb[col+1][1], rgb[col+1][2]);

				change_color_definition(row + 1, next_color, row + 1);
				init_pair(color_pair_number++, row + 1, bg_color_number);
				row++;
			}
		}

		int left = individual_size * (gradient_count - 1);
		int col = 2*(gradient_count) - 2;
		while(left < gradient_size){
			sprintf(next_color,"#%02x%02x%02x",rgb[col][0], rgb[col][1], rgb[col][2]);
			change_color_definition(row + 1, next_color, row + 1);
			init_pair(color_pair_number++, row + 1, bg_color_number);
			row++;
			left++;
		}
	}

	if (bg_color_number != -1)
		bkgd(COLOR_PAIR(color_pair_number));
	attron(COLOR_PAIR(color_pair_number));
	refresh();

}

void change_colors(int cur_height, int tot_height) {
	tot_height /= gradient_size ;
	if (tot_height < 1) tot_height = 1;
	cur_height /= tot_height;
	if (cur_height > gradient_size  - 1) cur_height = gradient_size - 1;
	attron(COLOR_PAIR(cur_height + 1));
}

void get_terminal_dim_ncurses(int* width, int* height) {
	getmaxyx(stdscr, *height, *width);
	gradient_size = *height;
	clear(); // clearing in case of resieze
}

#define TERMINAL_RESIZED -1

int draw_terminal_ncurses(int is_tty, int terminal_height, int terminal_width,
int bars_count, int bar_width, int bar_spacing, int rest, const int f[200],
int flastd[200], int gradient) {
	const int height = terminal_height - 1;
	const wchar_t* bar_heights[] = {L"\u2581", L"\u2582", L"\u2583",
		L"\u2584", L"\u2585", L"\u2586", L"\u2587", L"\u2588"};
	int num_bar_heights = (sizeof(bar_heights) / sizeof(bar_heights[0]));

	// output: check if terminal has been resized
	if (!is_tty) {
		if (LINES != terminal_height || COLS != terminal_width) {
			return TERMINAL_RESIZED;
		}
	}

	// Compute how much of the screen we possibly need to update ahead-of-time.
	int max_update_y = 0;
	for (int bar = 0; bar < bars_count; bar++) {
		max_update_y = max(max_update_y, max(f[bar], flastd[bar]));
	}

	max_update_y = (max_update_y + num_bar_heights) / num_bar_heights;

	for (int y = 0; y < max_update_y; y++) {
		if (gradient) {
			change_colors(y, height);
		}

		for (int bar = 0; bar < bars_count; bar++) {
			if (f[bar] == flastd[bar]) {
				continue;
			}

			int cur_col = bar * bar_width + bar * bar_spacing + rest;
			int f_cell = f[bar] / num_bar_heights;
			int f_last_cell = flastd[bar] / num_bar_heights;

			if (f_cell >= y) {
				int bar_step;

				if (f_cell == y) {
					// The "cap" of the bar occurs at this [y].
					bar_step = f[bar] % num_bar_heights;
				} else if (f_last_cell <= y) {
					// The bar is full at this [y].
					bar_step = num_bar_heights - 1;
				} else {
					// No update necessary since last frame.
					continue;
				}

				for (int col = cur_col, i = 0; i < bar_width; i++, col++) {
					if (is_tty) {
						mvaddch(height - y, col, '1' + bar_step);
					} else {
						mvaddwstr(height - y, col, bar_heights[bar_step]);
					}
				}
			} else if (f_last_cell >= y) {
				// This bar was taller during the last frame than during this frame, so
				// clear the excess characters.
				for (int col = cur_col, i = 0; i < bar_width; i++, col++) {
					mvaddch(height - y, col, ' ');
				}
			}
		}
	}

	memcpy(flastd, f, sizeof(*f));  // Memory for falloff func

	refresh();
	return 0;
}



// general: cleanup
void cleanup_terminal_ncurses(void) {
	echo();
	system("setfont  >/dev/null 2>&1");
	system("setfont /usr/share/consolefonts/Lat2-Fixed16.psf.gz  >/dev/null 2>&1");
	system("setterm -blank 10  >/dev/null 2>&1");
	/*for(int i = 0; i < gradient_size; ++i) {
		if(the_color_redefinitions[i].color) {
			init_color(the_color_redefinitions[i].color,
				the_color_redefinitions[i].R,
				the_color_redefinitions[i].G,
				the_color_redefinitions[i].B);
		}
	}
  */
	endwin();
	system("clear");
	system("reset");
}