godot-xterm/addons/godot_xterm/native/src/terminal.cpp

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// Copyright (c) 2021, Leroy Hopson (MIT License).
#include "terminal.h"
#include <Dictionary.hpp>
#include <InputEventKey.hpp>
#include <OS.hpp>
#include <ResourceLoader.hpp>
#include <Theme.hpp>
#include <algorithm>
#include <xkbcommon/xkbcommon-keysyms.h>
// For _populate_key_list(), see below.
#if !defined(__EMSCRIPTEN__)
#include <GlobalConstants.hpp>
#endif
using namespace godot;
std::map<std::pair<int64_t, int64_t>, int> Terminal::_key_list = {};
void Terminal::_populate_key_list() {
if (!_key_list.empty())
return;
// The following error is thrown on the javascript platform when using
// GlobalConstants from the header: abort(Assertion failed: bad export type for
// `_ZN5godot15GlobalConstants8KEY_KP_0E`: undefined). Build with -s
// ASSERTIONS=1 for more info.
#if !defined(__EMSCRIPTEN__)
#define GLOBAL_CONSTANT(VAR) GlobalConstants::VAR
#else
#define GLOBAL_CONSTANT(VAR) get_constant(#VAR)
const godot_dictionary _constants = godot_get_global_constants();
const Dictionary *constants = (Dictionary *)&_constants;
auto get_constant = [constants](std::string name) -> int64_t {
godot::Variant key = (godot::Variant)(godot::String(name.c_str()));
return constants->operator[](key);
};
#endif
// Godot does not have seperate scancodes for keypad keys when NumLock is off.
// We can check the unicode value to determine whether it is off and set the
// appropriate scancode.
// Based on the patch which adds support for this to TextEdit/LineEdit:
// https://github.com/godotengine/godot/pull/3269/files
_key_list.insert({{'0', GLOBAL_CONSTANT(KEY_KP_0)}, XKB_KEY_KP_0});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_0)}, XKB_KEY_KP_Insert});
_key_list.insert({{'1', GLOBAL_CONSTANT(KEY_KP_1)}, XKB_KEY_KP_1});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_1)}, XKB_KEY_KP_End});
_key_list.insert({{'2', GLOBAL_CONSTANT(KEY_KP_2)}, XKB_KEY_KP_2});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_2)}, XKB_KEY_KP_Down});
_key_list.insert({{'3', GLOBAL_CONSTANT(KEY_KP_3)}, XKB_KEY_KP_3});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_3)}, XKB_KEY_KP_Page_Down});
_key_list.insert({{'4', GLOBAL_CONSTANT(KEY_KP_4)}, XKB_KEY_KP_4});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_4)}, XKB_KEY_KP_Left});
_key_list.insert({{'5', GLOBAL_CONSTANT(KEY_KP_5)}, XKB_KEY_KP_5});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_5)}, XKB_KEY_KP_Begin});
_key_list.insert({{'6', GLOBAL_CONSTANT(KEY_KP_6)}, XKB_KEY_KP_6});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_6)}, XKB_KEY_KP_Right});
_key_list.insert({{'7', GLOBAL_CONSTANT(KEY_KP_7)}, XKB_KEY_KP_7});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_7)}, XKB_KEY_KP_Home});
_key_list.insert({{'8', GLOBAL_CONSTANT(KEY_KP_8)}, XKB_KEY_KP_8});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_8)}, XKB_KEY_KP_Up});
_key_list.insert({{'9', GLOBAL_CONSTANT(KEY_KP_9)}, XKB_KEY_KP_9});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_9)}, XKB_KEY_KP_Page_Up});
_key_list.insert({{'.', GLOBAL_CONSTANT(KEY_KP_PERIOD)}, XKB_KEY_KP_Decimal});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_PERIOD)}, XKB_KEY_KP_Delete});
_key_list.insert({{'/', GLOBAL_CONSTANT(KEY_KP_DIVIDE)}, XKB_KEY_KP_Divide});
_key_list.insert(
{{'*', GLOBAL_CONSTANT(KEY_KP_MULTIPLY)}, XKB_KEY_KP_Multiply});
_key_list.insert(
{{'-', GLOBAL_CONSTANT(KEY_KP_SUBTRACT)}, XKB_KEY_KP_Subtract});
_key_list.insert({{'+', GLOBAL_CONSTANT(KEY_KP_ADD)}, XKB_KEY_KP_Add});
_key_list.insert({{0b0, GLOBAL_CONSTANT(KEY_KP_ENTER)}, XKB_KEY_KP_Enter});
//_key_list.insert({{ , }, XKB_KEY_KP_Equal});
//_key_list.insert({{ , }, XKB_KEY_KP_Separator});
//_key_list.insert({{ , }, XKB_KEY_KP_Tab});
//_key_list.insert({{ , }, XKB_KEY_KP_F1});
//_key_list.insert({{ , }, XKB_KEY_KP_F2});
//_key_list.insert({{ , }, XKB_KEY_KP_F3});
//_key_list.insert({{ , }, XKB_KEY_KP_F4});
// Godot scancodes do not distinguish between uppercase and lowercase
// letters, so we can check the unicode value to determine this.
_key_list.insert({{'a', GLOBAL_CONSTANT(KEY_A)}, XKB_KEY_a});
_key_list.insert({{'A', GLOBAL_CONSTANT(KEY_A)}, XKB_KEY_A});
_key_list.insert({{'b', GLOBAL_CONSTANT(KEY_B)}, XKB_KEY_b});
_key_list.insert({{'B', GLOBAL_CONSTANT(KEY_B)}, XKB_KEY_B});
_key_list.insert({{'c', GLOBAL_CONSTANT(KEY_C)}, XKB_KEY_c});
_key_list.insert({{'C', GLOBAL_CONSTANT(KEY_C)}, XKB_KEY_C});
_key_list.insert({{'d', GLOBAL_CONSTANT(KEY_D)}, XKB_KEY_d});
_key_list.insert({{'D', GLOBAL_CONSTANT(KEY_D)}, XKB_KEY_D});
_key_list.insert({{'e', GLOBAL_CONSTANT(KEY_E)}, XKB_KEY_e});
_key_list.insert({{'E', GLOBAL_CONSTANT(KEY_E)}, XKB_KEY_E});
_key_list.insert({{'f', GLOBAL_CONSTANT(KEY_F)}, XKB_KEY_f});
_key_list.insert({{'F', GLOBAL_CONSTANT(KEY_F)}, XKB_KEY_F});
_key_list.insert({{'g', GLOBAL_CONSTANT(KEY_G)}, XKB_KEY_g});
_key_list.insert({{'G', GLOBAL_CONSTANT(KEY_G)}, XKB_KEY_G});
_key_list.insert({{'h', GLOBAL_CONSTANT(KEY_H)}, XKB_KEY_h});
_key_list.insert({{'H', GLOBAL_CONSTANT(KEY_H)}, XKB_KEY_H});
_key_list.insert({{'i', GLOBAL_CONSTANT(KEY_I)}, XKB_KEY_i});
_key_list.insert({{'I', GLOBAL_CONSTANT(KEY_I)}, XKB_KEY_I});
_key_list.insert({{'j', GLOBAL_CONSTANT(KEY_J)}, XKB_KEY_j});
_key_list.insert({{'J', GLOBAL_CONSTANT(KEY_J)}, XKB_KEY_J});
_key_list.insert({{'k', GLOBAL_CONSTANT(KEY_K)}, XKB_KEY_k});
_key_list.insert({{'K', GLOBAL_CONSTANT(KEY_K)}, XKB_KEY_K});
_key_list.insert({{'l', GLOBAL_CONSTANT(KEY_L)}, XKB_KEY_l});
_key_list.insert({{'L', GLOBAL_CONSTANT(KEY_L)}, XKB_KEY_L});
_key_list.insert({{'m', GLOBAL_CONSTANT(KEY_M)}, XKB_KEY_m});
_key_list.insert({{'M', GLOBAL_CONSTANT(KEY_M)}, XKB_KEY_M});
_key_list.insert({{'n', GLOBAL_CONSTANT(KEY_N)}, XKB_KEY_n});
_key_list.insert({{'N', GLOBAL_CONSTANT(KEY_N)}, XKB_KEY_N});
_key_list.insert({{'o', GLOBAL_CONSTANT(KEY_O)}, XKB_KEY_o});
_key_list.insert({{'O', GLOBAL_CONSTANT(KEY_O)}, XKB_KEY_O});
_key_list.insert({{'p', GLOBAL_CONSTANT(KEY_P)}, XKB_KEY_p});
_key_list.insert({{'P', GLOBAL_CONSTANT(KEY_P)}, XKB_KEY_P});
_key_list.insert({{'q', GLOBAL_CONSTANT(KEY_Q)}, XKB_KEY_q});
_key_list.insert({{'Q', GLOBAL_CONSTANT(KEY_Q)}, XKB_KEY_Q});
_key_list.insert({{'r', GLOBAL_CONSTANT(KEY_R)}, XKB_KEY_r});
_key_list.insert({{'R', GLOBAL_CONSTANT(KEY_R)}, XKB_KEY_R});
_key_list.insert({{'s', GLOBAL_CONSTANT(KEY_S)}, XKB_KEY_s});
_key_list.insert({{'S', GLOBAL_CONSTANT(KEY_S)}, XKB_KEY_S});
_key_list.insert({{'t', GLOBAL_CONSTANT(KEY_T)}, XKB_KEY_t});
_key_list.insert({{'T', GLOBAL_CONSTANT(KEY_T)}, XKB_KEY_T});
_key_list.insert({{'u', GLOBAL_CONSTANT(KEY_U)}, XKB_KEY_u});
_key_list.insert({{'U', GLOBAL_CONSTANT(KEY_U)}, XKB_KEY_U});
_key_list.insert({{'v', GLOBAL_CONSTANT(KEY_V)}, XKB_KEY_v});
_key_list.insert({{'V', GLOBAL_CONSTANT(KEY_V)}, XKB_KEY_V});
_key_list.insert({{'w', GLOBAL_CONSTANT(KEY_W)}, XKB_KEY_w});
_key_list.insert({{'W', GLOBAL_CONSTANT(KEY_W)}, XKB_KEY_W});
_key_list.insert({{'x', GLOBAL_CONSTANT(KEY_X)}, XKB_KEY_x});
_key_list.insert({{'X', GLOBAL_CONSTANT(KEY_X)}, XKB_KEY_X});
_key_list.insert({{'y', GLOBAL_CONSTANT(KEY_Y)}, XKB_KEY_y});
_key_list.insert({{'Y', GLOBAL_CONSTANT(KEY_Y)}, XKB_KEY_Y});
_key_list.insert({{'z', GLOBAL_CONSTANT(KEY_Z)}, XKB_KEY_z});
_key_list.insert({{'Z', GLOBAL_CONSTANT(KEY_Z)}, XKB_KEY_Z});
_key_list.insert({{'0', GLOBAL_CONSTANT(KEY_0)}, XKB_KEY_0});
_key_list.insert({{'1', GLOBAL_CONSTANT(KEY_1)}, XKB_KEY_1});
_key_list.insert({{'2', GLOBAL_CONSTANT(KEY_2)}, XKB_KEY_2});
_key_list.insert({{'3', GLOBAL_CONSTANT(KEY_3)}, XKB_KEY_3});
_key_list.insert({{'4', GLOBAL_CONSTANT(KEY_4)}, XKB_KEY_4});
_key_list.insert({{'5', GLOBAL_CONSTANT(KEY_5)}, XKB_KEY_5});
_key_list.insert({{'6', GLOBAL_CONSTANT(KEY_6)}, XKB_KEY_6});
_key_list.insert({{'7', GLOBAL_CONSTANT(KEY_7)}, XKB_KEY_7});
_key_list.insert({{'8', GLOBAL_CONSTANT(KEY_8)}, XKB_KEY_8});
_key_list.insert({{'9', GLOBAL_CONSTANT(KEY_9)}, XKB_KEY_9});
_key_list.insert(
{{'[', GLOBAL_CONSTANT(KEY_BRACKETLEFT)}, XKB_KEY_bracketleft});
_key_list.insert(
{{'[', GLOBAL_CONSTANT(KEY_BRACKETLEFT)}, XKB_KEY_bracketright});
_key_list.insert({{'{', GLOBAL_CONSTANT(KEY_BRACELEFT)}, XKB_KEY_braceleft});
_key_list.insert(
{{'}', GLOBAL_CONSTANT(KEY_BRACERIGHT)}, XKB_KEY_braceright});
_key_list.insert({{'\\', GLOBAL_CONSTANT(KEY_BACKSLASH)}, XKB_KEY_backslash});
_key_list.insert({{'|', GLOBAL_CONSTANT(KEY_BAR)}, XKB_KEY_bar});
_key_list.insert({{'`', GLOBAL_CONSTANT(KEY_QUOTELEFT)}, XKB_KEY_grave});
_key_list.insert(
{{'~', GLOBAL_CONSTANT(KEY_ASCIITILDE)}, XKB_KEY_asciitilde});
_key_list.insert({{'/', GLOBAL_CONSTANT(KEY_SLASH)}, XKB_KEY_slash});
_key_list.insert({{'?', GLOBAL_CONSTANT(KEY_QUESTION)}, XKB_KEY_question});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_HOME)}, XKB_KEY_Home});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_BACKSPACE)}, XKB_KEY_BackSpace});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_BACKTAB)}, XKB_KEY_ISO_Left_Tab});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_CLEAR)}, XKB_KEY_Clear});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_PAUSE)}, XKB_KEY_Pause});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_SCROLLLOCK)}, XKB_KEY_Scroll_Lock});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_SYSREQ)}, XKB_KEY_Sys_Req});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_ESCAPE)}, XKB_KEY_Escape});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_ENTER)}, XKB_KEY_Return});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_INSERT)}, XKB_KEY_Insert});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_DELETE)}, XKB_KEY_Delete});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_PAGEUP)}, XKB_KEY_Page_Up});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_PAGEDOWN)}, XKB_KEY_Page_Down});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_UP)}, XKB_KEY_Up});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_DOWN)}, XKB_KEY_Down});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_RIGHT)}, XKB_KEY_Right});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_LEFT)}, XKB_KEY_Left});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_TAB)}, XKB_KEY_Tab});
//_key_list.insert({{ , }, XKB_KEY_Linefeed},
//_key_list.insert({{ , }, XKB_KEY_Find},
//_key_list.insert({{ , }, XKB_KEY_Select},
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F1)}, XKB_KEY_F1});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F2)}, XKB_KEY_F2});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F3)}, XKB_KEY_F3});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F4)}, XKB_KEY_F4});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F5)}, XKB_KEY_F5});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F6)}, XKB_KEY_F6});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F7)}, XKB_KEY_F7});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F8)}, XKB_KEY_F8});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F9)}, XKB_KEY_F9});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F10)}, XKB_KEY_F10});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F11)}, XKB_KEY_F11});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F12)}, XKB_KEY_F12});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F13)}, XKB_KEY_F13});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F14)}, XKB_KEY_F14});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F15)}, XKB_KEY_F15});
_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F16)}, XKB_KEY_F16});
//_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F17)}, XKB_KEY_F17});
//_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F18)}, XKB_KEY_F18});
//_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F19)}, XKB_KEY_F19});
//_key_list.insert({{0, GLOBAL_CONSTANT(KEY_F20)}, XKB_KEY_F20});
};
uint32_t Terminal::mapkey(std::pair<int64_t, int64_t> key) {
if (Terminal::_key_list.empty())
Terminal::_populate_key_list();
auto iter = _key_list.find(key);
return (iter != _key_list.end() ? iter->second : XKB_KEY_NoSymbol);
}
static struct {
Color col;
bool is_set;
} colours[16];
static void term_output(const char *s, size_t len, void *user) {}
static void write_cb(struct tsm_vte *vte, const char *u8, size_t len,
void *data) {
Terminal *term = static_cast<Terminal *>(data);
PoolByteArray bytes = PoolByteArray();
for (int i = 0; i < len; i++)
bytes.append(u8[i]);
if (len > 0) {
if (term->input_event_key.is_valid()) {
// The callback was fired from a key press event so emit the "key_pressed"
// signal.
term->emit_signal("key_pressed", String(u8), term->input_event_key);
term->input_event_key.unref();
}
term->emit_signal("data_sent", bytes);
}
}
static int text_draw_cb(struct tsm_screen *con, uint64_t id, const uint32_t *ch,
size_t len, unsigned int width, unsigned int col,
unsigned int row, const struct tsm_screen_attr *attr,
tsm_age_t age, void *data) {
Terminal *terminal = static_cast<Terminal *>(data);
if (terminal->update_mode == Terminal::UpdateMode::AUTO && age != 0 &&
age <= terminal->framebuffer_age)
return 0;
std::pair<Color, Color> color_pair = terminal->get_cell_colors(attr);
terminal->draw_background(row, col, color_pair.first);
size_t ulen;
char buf[5] = {0};
if (len < 1) // No foreground to draw.
return 0;
char *utf8 = tsm_ucs4_to_utf8_alloc(ch, len, &ulen);
memcpy(buf, utf8, ulen);
terminal->draw_foreground(row, col, buf, attr, color_pair.second);
return 0;
}
void Terminal::_register_methods() {
register_method("_init", &Terminal::_init);
register_method("_ready", &Terminal::_ready);
register_method("_notification", &Terminal::_notification);
register_method("_gui_input", &Terminal::_gui_input);
register_method("_draw", &Terminal::_draw);
register_method("write", &Terminal::write);
register_method("_update_theme", &Terminal::update_theme);
register_method("_update_size", &Terminal::update_theme);
register_property<Terminal, int>("rows", &Terminal::rows, 24);
register_property<Terminal, int>("cols", &Terminal::cols, 80);
register_property<Terminal, int>("update_mode", &Terminal::update_mode,
UpdateMode::AUTO);
register_signal<Terminal>("data_sent", "data",
GODOT_VARIANT_TYPE_POOL_BYTE_ARRAY);
register_signal<Terminal>("key_pressed", "data", GODOT_VARIANT_TYPE_STRING,
"event", GODOT_VARIANT_TYPE_OBJECT);
register_signal<Terminal>("size_changed", "new_size",
GODOT_VARIANT_TYPE_VECTOR2);
}
Terminal::Terminal() {}
Terminal::~Terminal() {}
void Terminal::_init() {
framebuffer_age = 0;
update_mode = UpdateMode::AUTO;
if (tsm_screen_new(&screen, NULL, NULL)) {
ERR_PRINT("Error creating new tsm screen");
}
tsm_screen_set_max_sb(screen,
1000); // TODO: Use config var for scrollback size.
if (tsm_vte_new(&vte, screen, write_cb, this, NULL, NULL)) {
ERR_PRINT("Error creating new tsm vte");
}
}
void Terminal::_ready() { update_theme(); }
void Terminal::_notification(int what) {
switch (what) {
case NOTIFICATION_RESIZED:
update_size();
break;
case NOTIFICATION_THEME_CHANGED:
// update_theme();
break;
}
}
void Terminal::_gui_input(Variant event) {
Ref<InputEventKey> k = event;
if (k.is_valid()) {
if (!k->is_pressed()) {
return;
}
int64_t scancode = k->get_scancode();
int64_t unicode = k->get_unicode();
uint32_t ascii = unicode <= 127 ? unicode : 0;
unsigned int mods = 0;
if (k->get_alt())
mods |= TSM_ALT_MASK;
if (k->get_control())
mods |= TSM_CONTROL_MASK;
if (k->get_shift())
mods |= TSM_SHIFT_MASK;
uint32_t keysym = mapkey({unicode, scancode});
input_event_key = k;
tsm_vte_handle_keyboard(vte, keysym, ascii, mods,
unicode ? unicode : TSM_VTE_INVALID);
}
}
void Terminal::_draw() {
if (update_mode == UpdateMode::DISABLED)
return;
if ((update_mode > UpdateMode::AUTO) || framebuffer_age == 0) {
/* Draw the full terminal rect background */
// Draw the rectangle slightly larger, so it fills the entire viewport.
Color background_color = palette[TSM_COLOR_BACKGROUND];
draw_rect(Rect2(Vector2(-4, -4), get_rect().size + Vector2(8, 8)),
background_color);
}
framebuffer_age = tsm_screen_draw(screen, text_draw_cb, this);
if (update_mode == UpdateMode::ALL_NEXT_FRAME)
update_mode = UpdateMode::AUTO;
}
void Terminal::update_theme() {
ResourceLoader *rl = ResourceLoader::get_singleton();
/* Load the default theme if it exists and no theme is set */
// Having an actual theme resource set allows things like like font resizing.
const char *default_theme_path =
"res://addons/godot_xterm/themes/default.tres";
if (!get_theme().is_valid() && rl->exists(default_theme_path)) {
set_theme(rl->load(default_theme_path));
}
/* Generate color palette based on theme */
auto set_pallete_color = [this](tsm_vte_color color, String theme_color,
Color default_color) -> void {
Color c;
c = has_color(theme_color, "Terminal") ? get_color(theme_color, "Terminal")
: default_color;
color_palette[color][0] = c.get_r8();
color_palette[color][1] = c.get_g8();
color_palette[color][2] = c.get_b8();
palette[color] = c;
};
set_pallete_color(TSM_COLOR_BLACK, "Black", Color(0, 0, 0, 1));
set_pallete_color(TSM_COLOR_RED, "Red", Color(0.501961, 0, 0, 1));
set_pallete_color(TSM_COLOR_GREEN, "Green", Color(0, 0.501961, 0, 1));
set_pallete_color(TSM_COLOR_YELLOW, "Yellow",
Color(0.501961, 0.501961, 0, 1));
set_pallete_color(TSM_COLOR_BLUE, "Blue", Color(0, 0, 0.501961, 1));
set_pallete_color(TSM_COLOR_MAGENTA, "Magenta",
Color(0.501961, 0, 0.501961, 1));
set_pallete_color(TSM_COLOR_CYAN, "Cyan", Color(0, 0.501961, 0.501961, 1));
set_pallete_color(TSM_COLOR_DARK_GREY, "Dark Grey",
Color(0.501961, 0.501961, 0.501961, 1));
set_pallete_color(TSM_COLOR_LIGHT_GREY, "Light Grey",
Color(0.752941, 0.752941, 0.752941, 1));
set_pallete_color(TSM_COLOR_LIGHT_RED, "Light Red", Color(1, 0, 0, 1));
set_pallete_color(TSM_COLOR_LIGHT_GREEN, "Light Green", Color(0, 1, 0, 1));
set_pallete_color(TSM_COLOR_LIGHT_YELLOW, "Light Yellow", Color(1, 1, 0, 1));
set_pallete_color(TSM_COLOR_LIGHT_BLUE, "Light Blue", Color(0, 0, 1, 1));
set_pallete_color(TSM_COLOR_LIGHT_MAGENTA, "Light Magenta",
Color(1, 0, 1, 1));
set_pallete_color(TSM_COLOR_LIGHT_CYAN, "Light Cyan", Color(0, 1, 1, 1));
set_pallete_color(TSM_COLOR_WHITE, "White", Color(1, 1, 1, 1));
set_pallete_color(TSM_COLOR_BACKGROUND, "Background", Color(0, 0, 0, 1));
set_pallete_color(TSM_COLOR_FOREGROUND, "Foreground", Color(1, 1, 1, 1));
if (tsm_vte_set_custom_palette(vte, color_palette)) {
ERR_PRINT("Error setting custom palette");
}
if (tsm_vte_set_palette(vte, "custom")) {
ERR_PRINT("Error setting palette");
}
/* Load fonts into the fontmap from theme */
auto set_font = [this, rl](String font_style) -> void {
Ref<Font> fontref;
if (has_font(font_style, "Terminal")) {
fontref = get_font(font_style, "Terminal");
} else {
fontref = get_font("");
}
fontmap.insert(std::pair<String, Ref<Font>>(font_style, fontref));
};
set_font("Bold Italic");
set_font("Bold");
set_font("Italic");
set_font("Regular");
update_size();
}
void Terminal::draw_background(int row, int col, Color bgcolor) {
/* Draw the background */
Vector2 background_pos = Vector2(col * cell_size.x, row * cell_size.y);
Rect2 background_rect = Rect2(background_pos, cell_size);
draw_rect(background_rect, bgcolor);
}
void Terminal::draw_foreground(int row, int col, char *ch,
const tsm_screen_attr *attr, Color fgcolor) {
/* Set the font */
Ref<Font> fontref = get_font("");
if (attr->bold && attr->italic) {
fontref = fontmap["Bold Italic"];
} else if (attr->bold) {
fontref = fontmap["Bold"];
} else if (attr->italic) {
fontref = fontmap["Italic"];
} else {
fontref = fontmap["Regular"];
}
/* Draw the foreground */
if (attr->blink)
; // TODO: Handle blink
int font_height = fontref.ptr()->get_height();
Vector2 foreground_pos =
Vector2(col * cell_size.x, row * cell_size.y + font_height / 1.25);
draw_string(fontref, foreground_pos, ch, fgcolor);
if (attr->underline)
draw_string(fontref, foreground_pos, "_", fgcolor);
}
std::pair<Color, Color> Terminal::get_cell_colors(const tsm_screen_attr *attr) {
Color fgcol, bgcol;
float fr = 0, fg = 0, fb = 0, br = 1, bg = 1, bb = 1;
/* Get foreground color */
if (attr->fccode && palette.count(attr->fccode)) {
fgcol = palette[attr->fccode];
} else {
fr = (float)attr->fr / 255.0;
fg = (float)attr->fg / 255.0;
fb = (float)attr->fb / 255.0;
fgcol = Color(fr, fg, fb);
if (attr->fccode != -1) {
palette.insert(std::pair<int, Color>(attr->fccode, Color(fr, fg, fb)));
}
}
/* Get background color */
if (attr->bccode && palette.count(attr->bccode)) {
bgcol = palette[attr->bccode];
} else {
br = (float)attr->br / 255.0;
bg = (float)attr->bg / 255.0;
bb = (float)attr->bb / 255.0;
bgcol = Color(br, bg, bb);
if (attr->bccode != -1) {
palette.insert(std::pair<int, Color>(attr->bccode, Color(br, bg, bb)));
}
}
if (attr->inverse)
std::swap(bgcol, fgcol);
return std::make_pair(bgcol, fgcol);
}
void Terminal::update_size() {
// Recalculates the cell_size and number of cols/rows based on font size and
// the Control's rect_size.
Ref<Font> fontref = fontmap.count("Regular")
? fontmap["Regular"]
: has_font("Regular", "Terminal")
? get_font("Regular", "Terminal")
: get_font("");
cell_size = fontref->get_string_size("W");
rows = std::max(2, (int)floor(get_rect().size.y / cell_size.y));
cols = std::max(1, (int)floor(get_rect().size.x / cell_size.x));
tsm_screen_resize(screen, cols, rows);
emit_signal("size_changed", Vector2(cols, rows));
}
void Terminal::write(String data) {
const char *u8 = data.alloc_c_string();
size_t len = strlen(u8);
tsm_vte_input(vte, u8, len);
}