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Implemented char-fast conversion mode

This commit is contained in:
Vftdan 2024-10-03 22:37:32 +02:00
parent bedc6d9166
commit 53c9ba3db5
1 changed files with 71 additions and 12 deletions

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@ -14,6 +14,9 @@
#define MAX_COLOR_DIFFERENCE 768 #define MAX_COLOR_DIFFERENCE 768
#define K_MEANS_ITERATIONS 4 #define K_MEANS_ITERATIONS 4
#ifndef HAS_POPCNT
# define HAS_POPCNT 1
#endif
struct rgba { uint8_t r, g, b, a; }; struct rgba { uint8_t r, g, b, a; };
union color { union color {
@ -118,7 +121,7 @@ void image_unload(struct image *img);
void get_size_keep_aspect(int w, int h, int dw, int dh, int *ow, int *oh); void get_size_keep_aspect(int w, int h, int dw, int dh, int *ow, int *oh);
void convert_2x3(const struct image_pal *img, struct cc_char *characters); void convert_2x3(const struct image_pal *img, struct cc_char *characters);
void convert_8x11(const struct image_pal *img, struct cc_char *characters); void convert_8x11(const struct image_pal *img, struct cc_char *characters, bool precise);
// Only one global custom palette is maintained // Only one global custom palette is maintained
struct palette *custom_palette_resize(uint8_t size); struct palette *custom_palette_resize(uint8_t size);
@ -129,7 +132,13 @@ bool k_means_iteration(struct k_means_state *state);
void k_means_end(struct k_means_state *state); void k_means_end(struct k_means_state *state);
struct palette *palette_k_means(const struct image *image, const struct palette *prototype); struct palette *palette_k_means(const struct image *image, const struct palette *prototype);
inline static uint8_t closest_chunk_color_symbol(const typeof(float[8][11][0x10]) *chunk_palette_diffs, uint8_t color_pair); inline static int popcnt32(uint32_t mask);
inline static int glyph_hamming_distance(const GlyphBitmap *lhs, const GlyphBitmap *rhs);
inline static float weighted_glyph_hamming_distance(const GlyphBitmap *lhs, const GlyphBitmap *rhs, const typeof(float[11][8]) *weights);
uint8_t closest_glyph_symbol_fast(const GlyphBitmap *target);
uint8_t closest_glyph_symbol_precise(const GlyphBitmap *target, const typeof(float[11][8]) *weights);
void construct_chunk_color_glyph(GlyphBitmap *result, typeof(float[11][8]) *weights, const typeof(float[8][11][0x10]) *chunk_palette_diffs, uint8_t color_pair);
inline static uint8_t closest_chunk_color_symbol(const typeof(float[8][11][0x10]) *chunk_palette_diffs, uint8_t color_pair, bool precise);
const char *known_file_extensions[] = { const char *known_file_extensions[] = {
".png", ".jpg", ".jpeg", ".jfif", ".jpg", ".gif", ".png", ".jpg", ".jpeg", ".jfif", ".jpg", ".gif",
@ -248,10 +257,19 @@ int main(int argc, char **argv) {
return EXIT_FAILURE; return EXIT_FAILURE;
} }
if (args.character_mode == CHARACTER_BLOCK) { switch (args.character_mode) {
case CHARACTER_BLOCK:
convert_2x3(quantized_image, characters); convert_2x3(quantized_image, characters);
} else { break;
convert_8x11(quantized_image, characters); case CHARACTER_CHAR_PRECISE:
convert_8x11(quantized_image, characters, true);
break;
case CHARACTER_CHAR_FAST:
convert_8x11(quantized_image, characters, false);
break;
default:
fprintf(stderr, "BUG: invalid args.character_mode\n");
return EXIT_FAILURE;
} }
// TODO: implement something other than CPIv0 // TODO: implement something other than CPIv0
@ -632,7 +650,7 @@ void convert_2x3(const struct image_pal *img, struct cc_char *characters) {
} }
} }
void convert_8x11(const struct image_pal *img, struct cc_char *characters) { void convert_8x11(const struct image_pal *img, struct cc_char *characters, bool precise) {
int w = img->w / 8, h = img->h / 11; int w = img->w / 8, h = img->h / 11;
float palette_self_diffs[0x100][0x10] = {{(float) 0xffffff}}; float palette_self_diffs[0x100][0x10] = {{(float) 0xffffff}};
for (int input_color = 0x0; input_color < 0x100 && input_color < img->palette->count; input_color++) { for (int input_color = 0x0; input_color < 0x100 && input_color < img->palette->count; input_color++) {
@ -659,7 +677,7 @@ void convert_8x11(const struct image_pal *img, struct cc_char *characters) {
char closest_sym = 0x00, closest_color = 0xae; char closest_sym = 0x00, closest_color = 0xae;
for (int color = 0x00; color <= 0xff; color++) { for (int color = 0x00; color <= 0xff; color++) {
{ {
const int sym = closest_chunk_color_symbol(&chunk_palette_diffs, color); const int sym = closest_chunk_color_symbol(&chunk_palette_diffs, color, precise);
float difference = 0; float difference = 0;
for (int oy = 0; oy < 11; oy++) { for (int oy = 0; oy < 11; oy++) {
unsigned char sym_line = font_atlas[sym][oy]; unsigned char sym_line = font_atlas[sym][oy];
@ -817,7 +835,28 @@ struct palette *palette_k_means(const struct image *image, const struct palette
return palette; return palette;
} }
inline static float weighted_glyph_hamming_distance(const GlyphBitmap *lhs, const GlyphBitmap *rhs, const typeof(float[11][8]) *weights) { int popcnt32(uint32_t mask) {
#if HAS_POPCNT
return __builtin_popcount(mask);
#else
int res = 0;
for (; mask; mask >>= 1) {
res += mask & 1;
}
return res;
#endif
}
int glyph_hamming_distance(const GlyphBitmap *lhs, const GlyphBitmap *rhs) {
int dist = 0;
dist += popcnt32(*((uint32_t*)&((*lhs)[0])) ^ *((uint32_t*)&((*rhs)[0])));
dist += popcnt32(*((uint32_t*)&((*lhs)[4])) ^ *((uint32_t*)&((*rhs)[4])));
dist += popcnt32(*((uint16_t*)&((*lhs)[8])) ^ *((uint16_t*)&((*rhs)[8])));
dist += popcnt32( ( ((*lhs)[10])) ^ ( ((*rhs)[10])));
return dist;
}
float weighted_glyph_hamming_distance(const GlyphBitmap *lhs, const GlyphBitmap *rhs, const typeof(float[11][8]) *weights) {
float dist = 0; float dist = 0;
for (int oy = 0; oy < 11; oy++) { for (int oy = 0; oy < 11; oy++) {
uint8_t sym_line = (*lhs)[oy] ^ (*rhs)[oy]; uint8_t sym_line = (*lhs)[oy] ^ (*rhs)[oy];
@ -831,7 +870,23 @@ inline static float weighted_glyph_hamming_distance(const GlyphBitmap *lhs, cons
return dist; return dist;
} }
uint8_t closest_glyph_symbol(const GlyphBitmap *target, const typeof(float[11][8]) *weights) { uint8_t closest_glyph_symbol_fast(const GlyphBitmap *target) {
uint8_t best = 0x01;
int best_dist = glyph_hamming_distance(target, &font_atlas[best]);
for (int sym = 0x02; sym <= 0xFF; sym++) {
if (sym == '\t' || sym == '\n' || sym == '\r' || sym == '\x0e') {
continue;
}
int dist = glyph_hamming_distance(target, &font_atlas[sym]);
if (dist <= best_dist) {
best_dist = dist;
best = sym;
}
}
return best;
}
uint8_t closest_glyph_symbol_precise(const GlyphBitmap *target, const typeof(float[11][8]) *weights) {
uint8_t best = 0x01; uint8_t best = 0x01;
float best_dist = weighted_glyph_hamming_distance(target, &font_atlas[best], weights); float best_dist = weighted_glyph_hamming_distance(target, &font_atlas[best], weights);
for (int sym = 0x02; sym <= 0xFF; sym++) { for (int sym = 0x02; sym <= 0xFF; sym++) {
@ -865,11 +920,15 @@ void construct_chunk_color_glyph(GlyphBitmap *result, typeof(float[11][8]) *weig
} }
} }
uint8_t closest_chunk_color_symbol(const typeof(float[8][11][0x10]) *chunk_palette_diffs, uint8_t color_pair) { uint8_t closest_chunk_color_symbol(const typeof(float[8][11][0x10]) *chunk_palette_diffs, uint8_t color_pair, bool precise) {
GlyphBitmap glyph; GlyphBitmap glyph;
float weights[11][8]; float weights[11][8];
construct_chunk_color_glyph(&glyph, &weights, chunk_palette_diffs, color_pair); construct_chunk_color_glyph(&glyph, precise ? &weights : NULL, chunk_palette_diffs, color_pair);
return closest_glyph_symbol(&glyph, &weights); if (precise) {
return closest_glyph_symbol_precise(&glyph, &weights);
} else {
return closest_glyph_symbol_fast(&glyph);
}
} }
const struct palette DEFAULT_PALETTE = PALETTE( const struct palette DEFAULT_PALETTE = PALETTE(