terml/source/terml.cpp

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#include "terml_private.h"
#ifdef _WIN32
#include "terml_windows.h"
#else
#include "terml_linux.h"
#endif
#include <cstdio>
#include <cstring>
namespace
{
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constexpr int BYTE_ONE_MASK = 0b000000000000000000111111;
constexpr int BYTE_TWO_MASK = 0b000000000000111111000000;
constexpr int BYTE_THREE_MASK = 0b000000111111000000000000;
constexpr int BYTE_FOUR_MASK = 0b000111000000000000000000;
constexpr int BYTE_ONE_MASK_OFFSET = 0;
constexpr int BYTE_TWO_MASK_OFFSET = BYTE_ONE_MASK_OFFSET + 2;
constexpr int BYTE_THREE_MASK_OFFSET = BYTE_TWO_MASK_OFFSET + 2;
constexpr int BYTE_FOUR_MASK_OFFSET = BYTE_THREE_MASK_OFFSET + 2;
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constexpr int ONE_BYTE_FILL = 0b10000000;
constexpr int TWO_BYTE_FILL = 0b1100000010000000;
constexpr int THREE_BYTE_FILL = 0b111000001000000010000000;
constexpr int FOUR_BYTE_FILL = 0b11110000100000001000000010000000;
void print_cell(tcell cell, const tcell* last)
{
if (!last || cell.foreground != last->foreground)
{
printf(FGP, (cell.foreground & 0xFF0000) >> 16, (cell.foreground & 0xFF00) >> 8, cell.foreground & 0xFF);
}
if (!last || cell.background != last->background)
{
printf(BGP, (cell.background & 0xFF0000) >> 16, (cell.background & 0xFF00) >> 8, cell.background & 0xFF);
}
// one-byte codepoints
if (cell.codepoint < 0x80)
{
const char str[] = { cell.codepoint, '\0' };
printf("%s", str);
}
// two-byte codepoints
else if (cell.codepoint < 0x800)
{
const int byte_one = (cell.codepoint & BYTE_ONE_MASK) << BYTE_ONE_MASK_OFFSET;
const int byte_two = (cell.codepoint & BYTE_TWO_MASK) << BYTE_TWO_MASK_OFFSET;
const int utf8 = TWO_BYTE_FILL | byte_one | byte_two;
const char str[] = { (utf8 & 0xFF00) >> 8, utf8 & 0xFF, '\0' };
printf("%s", str);
}
// three-byte codepoints
else if (cell.codepoint < 0x10000)
{
const int byte_one = (cell.codepoint & BYTE_ONE_MASK) << BYTE_ONE_MASK_OFFSET;
const int byte_two = (cell.codepoint & BYTE_TWO_MASK) << BYTE_TWO_MASK_OFFSET;
const int byte_three = (cell.codepoint & BYTE_THREE_MASK) << BYTE_THREE_MASK_OFFSET;
const int utf8 = THREE_BYTE_FILL | byte_one | byte_two | byte_three;
const char str[] = { (utf8 & 0xFF0000) >> 16, (utf8 & 0xFF00) >> 8, utf8 & 0xFF, '\0' };
printf("%s", str);
}
// four-byte codepoints
else if (cell.codepoint < 0x110000)
{
const int byte_one = (cell.codepoint & BYTE_ONE_MASK) << BYTE_ONE_MASK_OFFSET;
const int byte_two = (cell.codepoint & BYTE_TWO_MASK) << BYTE_TWO_MASK_OFFSET;
const int byte_three = (cell.codepoint & BYTE_THREE_MASK) << BYTE_THREE_MASK_OFFSET;
const int byte_four = (cell.codepoint & BYTE_FOUR_MASK) << BYTE_FOUR_MASK_OFFSET;
const int utf8 = FOUR_BYTE_FILL | byte_one | byte_two | byte_three | byte_four;
const char str[] = { (utf8 & 0xFF000000) >> 24, (utf8 & 0xFF0000) >> 16, (utf8 & 0xFF00) >> 8, utf8 & 0xFF, '\0' };
printf("%s", str);
}
}
}
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terml::terml() :
cells(nullptr),
width(0),
height(0),
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main(nullptr),
quit(nullptr),
key(nullptr),
resize(nullptr),
should_quit(false),
really_should_quit(false)
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{
}
terml::~terml()
{
if (cells) { delete[] cells; }
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}
const tcell& terml::get(unsigned int x, unsigned int y) const
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{
return cells[x + y * width];
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}
void terml::set(unsigned int x, unsigned int y, tcell cell)
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{
cells[x + y * width] = cell;
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}
void terml::flush() const
{
printf(CUP(1, 1));
fflush(stdout);
print_cell(cells[0], nullptr);
for (int i = 1; i < width * height; i++)
{
print_cell(cells[i], &cells[i - 1]);
}
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fflush(stdout);
}
void terml::set_main_callback(terml_main_callback callback)
{
main = callback;
}
void terml::set_quit_callback(terml_quit_callback callback)
{
quit = callback;
}
void terml::set_key_callback(terml_key_callback callback)
{
key = callback;
}
void terml::set_resize_callback(terml_resize_callback callback)
{
resize = callback;
}
void terml::key_event(char code) const
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{
if (key)
{
key(code);
}
}
void terml::mainloop()
{
should_quit = false;
really_should_quit = false;
const unsigned long long wait_time = timer_frequency() / 60;
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unsigned long long last_time = timer();
while (!really_should_quit)
{
unsigned long long current_time = timer();
while (current_time >= last_time + wait_time)
{
if (main)
{
main();
}
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process_events();
last_time = current_time;
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}
if (should_quit)
{
if (!quit || quit())
{
really_should_quit = true;
}
else
{
should_quit = false;
}
}
}
}
void terml::stop()
{
should_quit = true;
}
unsigned int terml::get_width() const
{
return width;
}
unsigned int terml::get_height() const
{
return height;
}
void terml::setup_buffer()
{
printf(CUP(999, 999) REPORT_CUSROR_POSITION());
fflush(stdout);
constexpr const unsigned int STDIN_BUFFER_SIZE = 16;
char stdin_buffer[STDIN_BUFFER_SIZE + 1];
read_stdin(stdin_buffer, STDIN_BUFFER_SIZE);
stdin_buffer[STDIN_BUFFER_SIZE] = '\0';
const unsigned int new_width = width;
const unsigned int new_height = height;
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const int scanned = sscanf(stdin_buffer, CURSOR_POSITION_FORMAT(), &new_height, &new_width);
if (scanned != 2)
{
throw "Failed to determine screen size.";
}
if (width != new_width || height != new_height)
{
const unsigned int old_width = width;
const unsigned int old_height = height;
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width = new_width;
height = new_height;
if (cells) { delete[] cells; }
cells = new tcell[width * height];
memset(cells, 0, sizeof(tcell) * width * height);
if (resize)
{
resize(old_width, old_height);
}
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}
}
void terml::set_console_settings()
{
setvbuf(stdout, nullptr, _IOFBF, BUFSIZ * BUFSIZ);
printf(ALT_BUF() HIDE_CURSOR());
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printf(SELECT_UTF8());
fflush(stdout);
set_console_settings_impl();
}
void terml::reset_console_settings()
{
setvbuf(stdout, nullptr, _IOLBF, BUFSIZ);
printf(REG_BUF() SHOW_CURSOR());
fflush(stdout);
reset_console_settings_impl();
}
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static terml* TERML_G;
static const char* LAST_ERROR = nullptr;
extern "C"
{
int terml_init()
{
try
{
if (!TERML_G)
{
#ifdef _WIN32
TERML_G = new terml_windows;
#else
TERML_G = new terml_linux;
#endif
}
else
{
throw "terml already initialized.";
}
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TERML_G->set_console_settings();
TERML_G->setup_buffer();
return 0;
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}
catch (const char* c)
{
LAST_ERROR = c;
return 1;
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}
}
int terml_deinit()
{
try
{
if (TERML_G)
{
TERML_G->reset_console_settings();
delete TERML_G;
}
return 0;
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}
catch (const char* c)
{
LAST_ERROR = c;
return 1;
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}
}
unsigned int terml_get_width()
{
return TERML_G->get_width();
}
unsigned int terml_get_height()
{
return TERML_G->get_height();
}
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int terml_get(unsigned int x, unsigned int y, tcell* cell)
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{
if (x >= TERML_G->get_width() || y >= TERML_G->get_height())
{
LAST_ERROR = "Coordinates out of bounds.";
return 1;
}
else if (!cell)
{
LAST_ERROR = "Null output pointer.";
return 1;
}
else
{
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*cell = TERML_G->get(x, y);
return 0;
}
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}
int terml_set(unsigned int x, unsigned int y, tcell cell)
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{
if (x >= TERML_G->get_width() || y >= TERML_G->get_height())
{
LAST_ERROR = "Coordinates out of bounds.";
return 1;
}
else
{
TERML_G->set(x, y, cell);
return 0;
}
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}
void terml_flush()
{
TERML_G->flush();
}
void terml_set_main_callback(terml_main_callback callback)
{
TERML_G->set_main_callback(callback);
}
void terml_set_quit_callback(terml_quit_callback callback)
{
TERML_G->set_quit_callback(callback);
}
void terml_set_key_callback(terml_key_callback callback)
{
TERML_G->set_key_callback(callback);
}
void terml_set_resize_callback(terml_resize_callback callback)
{
TERML_G->set_resize_callback(callback);
}
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void terml_start()
{
try
{
TERML_G->mainloop();
}
catch (const char* c)
{
LAST_ERROR = c;
}
}
void terml_stop()
{
TERML_G->stop();
}
const char* terml_get_error()
{
const char* err = LAST_ERROR;
LAST_ERROR = nullptr;
return err;
}
}