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#include "util/ragel/ragel.h"
#include "stack.h"
#include "default-font.h"
#include "parser.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <assert.h>
#include <err.h>
#include "utf8.h"
#define MAX(x, y) (((x) > (y)) ? (x) : (y))
#define MIN(x, y) (((x) < (y)) ? (x) : (y))
#define div_round_up(x, y) (1 + ((x - 1) / y))
static const uint8_t SPACING = 1;
struct utf8 {
uint32_t state;
};
struct cursor {
size_t x, y, wy;
};
struct raster {
struct font font;
uint8_t barcode_height;
uint8_t barcode_type;
enum {
UNDERLINE_NONE,
UNDERLINE_LIGHT,
UNDERLINE_HEAVY,
} underline;
enum {
JUSTIFY_LEFT,
JUSTIFY_CENTER,
JUSTIFY_RIGHT
} justify;
bool emphasis;
bool double_strike;
bool double_width;
bool double_height;
};
static void
init_canvas(struct escpos_canvas *canvas, struct cursor *cursor)
{
assert(canvas && cursor);
memset(canvas->data, 0, canvas->w * canvas->h);
*cursor = (struct cursor){ .x = 0, .y = 0, .wy = 0 };
}
static void
init_raster(struct raster *raster)
{
assert(raster);
*raster = (struct raster){ .font = _intlfonts_ucs };
}
static void
render_chr(struct escpos_canvas *canvas, struct cursor *cursor, const struct raster *raster, const uint32_t cp)
{
assert(canvas && raster);
const size_t off = canvas->w * cursor->y + cursor->x;
const struct glyph *glyph = &raster->font.ucs2glyph[MIN(MAX(cp, 0), raster->font.max_ucs)];
const size_t width = div_round_up(glyph->width, 8);
const uint8_t *data = &raster->font.data[glyph->offset];
for (size_t gy = 0; gy < raster->font.height; ++gy) {
for (size_t gx = 0; gx < width; ++gx) {
for (uint8_t b = 0; b < 8; ++b) {
const size_t dst = off + (canvas->w * gy + (gx * 4) + b);
assert(dst < canvas->w * canvas->h);
canvas->data[dst] = data[width * gy + gx] & (1 << (7 - b));
}
}
}
cursor->x += MIN(glyph->width + SPACING, canvas->w - cursor->x);
cursor->wy = MIN(cursor->y + MAX(raster->font.height, 1) - 1, canvas->h);
}
static void
apply_canvas(struct escpos_canvas *dst, struct cursor *dst_cursor, struct escpos_canvas *src, struct cursor *src_cursor)
{
assert(dst && dst_cursor && src && src_cursor);
const size_t off = dst->w * dst_cursor->y + dst_cursor->x;
assert(off + src->w * src_cursor->wy <= dst->w * dst->h);
memcpy((char*)dst->data + off, src->data, src->w * src_cursor->wy);
dst_cursor->wy = MAX(dst_cursor->wy, src_cursor->wy);
init_canvas(src, src_cursor);
}
static void
render_checker(struct escpos_canvas *canvas)
{
for (size_t gy = 0; gy < canvas->w; ++gy) {
for (size_t gx = 0; gx < canvas->h; ++gx) {
const size_t dst = canvas->w * gy + gx;
assert(dst < canvas->w * canvas->h);
canvas->data[dst] = ((gy * gx) % 2);
}
}
}
static void
lfd(const struct escpos_canvas *canvas, struct cursor *cursor, const struct raster *raster, const uint8_t num)
{
assert(canvas && cursor);
const size_t lf = (raster->font.height + SPACING) * num;
cursor->x = 0;
cursor->y += MIN(lf, canvas->h - cursor->y);
cursor->wy = cursor->y + raster->font.height + SPACING;
}
static void
cut(const struct escpos_parser *parser, struct escpos_canvas *canvas, struct cursor *cursor)
{
assert(parser && canvas && cursor);
assert(cursor->wy <= canvas->h);
if (cursor->wy > 0) {
parser->write(parser, canvas->data, canvas->w, MIN(canvas->h, cursor->wy));
init_canvas(canvas, cursor);
}
}
%%{
machine escpos_parser;
alphtype unsigned char;
include escpos_stack "stack.rl";
variable p ragel.p;
variable pe ragel.pe;
variable eof ragel.eof;
write data noerror nofinal;
action init {
puts("init");
init_canvas(&parser->canvas, &canvas_cursor);
init_canvas(&parser->print_buffer, &print_buffer_cursor);
init_raster(&raster);
}
action lfd {
fprintf(stderr, "lfd %d\n", stack_get_num(&stack));
apply_canvas(&parser->canvas, &canvas_cursor, &parser->print_buffer, &print_buffer_cursor);
lfd(&parser->canvas, &canvas_cursor, &raster, stack_get_num(&stack));
}
action lfv {
fprintf(stderr, "lfv %d\n", stack_get_num(&stack));
apply_canvas(&parser->canvas, &canvas_cursor, &parser->print_buffer, &print_buffer_cursor);
lfd(&parser->canvas, &canvas_cursor, &raster, stack_get_num(&stack));
const size_t lf = (raster.font.height + SPACING) * stack_get_num(&stack);
canvas_cursor.x = 0;
canvas_cursor.y -= MIN(lf, canvas_cursor.y);
canvas_cursor.wy = canvas_cursor.y + raster.font.height + SPACING;
}
action print_mode {
fprintf(stderr, "print-mode: %d\n", stack_get_num(&stack));
enum {
MODE_FONTA = 1<<0,
MODE_FONTB = 1<<1,
MODE_EMPHASIS = 1<<2,
MODE_DOUBLE_HEIGHT = 1<<3,
MODE_DOUBLE_WIDTH = 1<<4,
MODE_UNDERLINE = 1<<5,
};
const uint8_t mode = stack_get_num(&stack);
raster.emphasis = (mode & MODE_EMPHASIS);
raster.double_width = (mode & MODE_DOUBLE_HEIGHT);
raster.double_width = (mode & MODE_DOUBLE_WIDTH);
raster.underline = (mode & MODE_UNDERLINE);
}
action underline {
fprintf(stderr, "underline %d\n", stack_get_num(&stack));
raster.underline = stack_get_num(&stack);
}
action cut {
fprintf(stderr, "cut %d\n", stack_get_num(&stack));
cut(parser, &parser->canvas, &canvas_cursor);
}
action emphasis {
fprintf(stderr, "emphasis %d\n", stack_get_num(&stack));
raster.emphasis = stack_get_num(&stack);
}
action double_strike {
fprintf(stderr, "double-strike %d\n", stack_get_num(&stack));
raster.double_strike = stack_get_num(&stack);
}
action font {
fprintf(stderr, "font %d\n", stack_get_num(&stack));
}
action justify {
fprintf(stderr, "justify %d\n", stack_get_num(&stack));
raster.justify = stack_get_num(&stack);
}
action barcode_height {
fprintf(stderr, "barcode-height %d\n", stack_get_num(&stack));
raster.barcode_height = stack_get_num(&stack);
}
action barcode_type {
fprintf(stderr, "barcode-type %d\n", stack_get_num(&stack));
raster.barcode_type = stack_get_num(&stack);
}
action barcode_str {
fprintf(stderr, "barcode-str %s\n", (char*)stack_get_str(&stack)->data);
}
action syntax_err {
ragel_throw_error(&ragel, "malformed input (machine failed here or in next expression)");
}
action text {
putc(fc, stderr);
uint32_t cp;
if (utf8_decode(&utf8.state, &cp, fc) == UTF8_ACCEPT)
render_chr(&parser->print_buffer, &print_buffer_cursor, &raster, cp);
}
action line {
fputs("\\n", stderr);
ragel_advance_line(&ragel);
apply_canvas(&parser->canvas, &canvas_cursor, &parser->print_buffer, &print_buffer_cursor);
lfd(&parser->canvas, &canvas_cursor, &raster, 1);
}
LF = 0x0A;
ESC = 0x1B;
GS = 0x1D;
init = ESC '@' %init;
linefeed = LF %line | ESC :>> (('d' stack_num) %lfd | ('v' stack_num) %lfv);
print_mode = ESC '!' stack_num %print_mode;
underline = ESC '-' stack_num %underline;
cut = GS 'V' stack_num 0x03 %cut;
emphasis = ESC 'E' stack_num %emphasis;
double_strike = ESC 'G' stack_num %double_strike;
font = ESC 'M' stack_num %font;
justify = ESC 'a' stack_str %justify;
barcode_height = GS 'h' stack_num %barcode_height;
barcode = ESC 'k' stack_num %barcode_type stack_str %barcode_str;
cmd = (init | linefeed | print_mode | underline | cut |Â emphasis | double_strike | font | justify | barcode);
main := (cmd | TEXT $text)* $!syntax_err;
}%%
bool
escpos_parser_parse(struct escpos_parser *parser, const char *name)
{
int cs;
%% write init;
(void)escpos_parser_en_main;
assert(parser);
assert(parser->read);
assert(parser->write);
struct stack stack = { .var.buf.mem = parser->var };
struct ragel ragel = { .name = name, .lineno = 1 };
struct utf8 utf8 = {0};
struct cursor canvas_cursor, print_buffer_cursor;
init_canvas(&parser->canvas, &canvas_cursor);
init_canvas(&parser->print_buffer, &print_buffer_cursor);
struct raster raster;
init_raster(&raster);
struct escpos_mem window = parser->window;
for (bool eof = false; !ragel.error && !eof;) {
const size_t bytes = parser->read(parser, window.data, window.len);
const struct ragel_mem input = { .data = window.data, .end = (char*)window.data + bytes, .binary = true };
ragel_feed_input(&ragel, (eof = (bytes < window.len)), &input);
%% write exec;
}
if (!ragel.error) {
apply_canvas(&parser->canvas, &canvas_cursor, &parser->print_buffer, &print_buffer_cursor);
cut(parser, &parser->canvas, &canvas_cursor);
}
return !ragel.error;
}
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