GY-63_MS5611/libraries/ANSI/ansi.cpp
2023-01-31 20:16:44 +01:00

233 lines
3.6 KiB
C++

//
// FILE: ansi.cpp
// AUTHOR: Rob Tillaart
// VERSION: 0.1.8
// PURPOSE: Arduino library to send ANSI escape sequences
// DATE: 2020-04-28
// URL: https://github.com/RobTillaart/ANSI
#include "ansi.h"
ANSI::ANSI(Stream * stream)
{
_stream = stream;
}
int ANSI::available()
{
return _stream->available();
}
int ANSI::read()
{
return _stream->read();
}
int ANSI::peek()
{
return _stream->peek();
}
void ANSI::clearScreen()
{
// print(F("\033[2J\033[H"));
print("\033[2J");
home();
}
void ANSI::clearLine(uint8_t clear)
{
print("\033[");
print(clear);
print("K");
}
void ANSI::home()
{
print("\033[H");
};
// ANSI has three different color spaces: 4-bit color, 8-bit color, and 24-bit color
// These are rendered with SGR 30-37,90-97/40-47,100-107, SGR 38;5/48;5, and SGR 38;2/48;2, respectively
// The 4-bit color space is the most widely compatible and the most compactly transmitted
enum {
fg_normal = 30,
bg_normal = 40,
bright_color = 52,
extended_color = 8,
extended_color8 = 5,
extended_color24 = 2,
};
void ANSI::foreground(uint8_t fgcolor)
{
if (fgcolor < 16) {
this->color4(fg_normal, fgcolor);
} else {
this->color8(fg_normal, fgcolor);
}
}
void ANSI::background(uint8_t bgcolor)
{
if (bgcolor < 16) {
this->color4(bg_normal, bgcolor);
} else {
this->color8(bg_normal, bgcolor);
}
}
void ANSI::color(uint8_t fgcolor, uint8_t bgcolor)
{
if (fgcolor < 16 && bgcolor < 16) {
this->colors4(fgcolor, bgcolor);
} else {
this->color8(fg_normal, fgcolor);
this->color8(bg_normal, bgcolor);
}
}
uint8_t ANSI::rgb2color(uint8_t r, uint8_t g, uint8_t b) {
return 16 +
36 * (uint16_t(r) * 6 / 256) +
6 * (uint16_t(g) * 6 / 256) +
(uint16_t(b) * 6 / 256);
}
void ANSI::gotoXY(uint8_t x, uint8_t y)
{
print("\033[");
print(x);
print(";");
print(y);
print("H");
}
void ANSI::cursorUp(uint8_t x)
{
print("\033[");
print(x);
print("A");
}
void ANSI::cursorDown(uint8_t x)
{
print("\033[");
print(x);
print("B");
}
void ANSI::cursorForward(uint8_t x)
{
print("\033[");
print(x);
print("C");
}
void ANSI::cursorBack(uint8_t x)
{
print("\033[");
print(x);
print("D");
}
int ANSI::deviceType(uint32_t timeout)
{
int type = -1; // -1 = unknown
print("\033[0c");
uint32_t start = millis();
int read_len = 0;
char buffer[8];
while ((read_len != 3) && ((millis() - start) < timeout))
{
delay(1);
read_len = Serial.readBytes(buffer, 3);
if ((buffer[0] == '1') && (buffer[1] == ';'))
{
type = buffer[2] - '0';
}
// Serial.write(buffer, 3);
// Serial.println();
}
return type;
}
//////////////////////////////////////////////////
//
// PRIVATE
//
size_t ANSI::write(uint8_t c)
{
// add line buffer? - interference with write(array, length) !?
return _stream->write(c);
}
size_t ANSI::write(uint8_t * array, uint8_t length)
{
return _stream->write(array, length);
}
void ANSI::color4_code(uint8_t base, uint8_t color) {
if (color < 8) {
print(base + color);
} else {
print(base + bright_color + color);
}
}
void ANSI::color4(uint8_t base, uint8_t color) {
print("\033[");
this->color4_code(base, color);
print("m");
}
void ANSI::colors4(uint8_t fgcolor, uint8_t bgcolor) {
print("\033[");
this->color4_code(fg_normal, fgcolor);
print(";");
this->color4_code(bg_normal, bgcolor);
print("m");
}
void ANSI::color8(uint8_t base, uint8_t color) {
print("\033[");
print(base + extended_color);
print(";");
print(extended_color8);
print(";");
print(color);
print("m");
}
// -- END OF FILE --