static inline void quiet_border (zbar_image_scanner_t *iscn) { /* flush scanner pipeline */ zbar_scanner_t *scn = iscn->scn; zbar_scanner_flush(scn); zbar_scanner_flush(scn); zbar_scanner_new_scan(scn); }
static PyObject* scanner_new_scan (zbarScanner *self, PyObject *args, PyObject *kwds) { static char *kwlist[] = { NULL }; if(!PyArg_ParseTupleAndKeywords(args, kwds, "", kwlist)) return(NULL); zbar_scanner_new_scan(self->zscn); Py_RETURN_NONE; }
static inline void quiet_border (zbar_image_scanner_t *iscn, unsigned samples, int x, int y) { unsigned i; for(i = samples; i; i--) if(zbar_scan_y(iscn->scn, 255)) symbol_handler(iscn, x, y); /* flush final transition with 2 black pixels */ for(i = 2; i; i--) if(zbar_scan_y(iscn->scn, 0)) symbol_handler(iscn, x, y); if(zbar_scanner_new_scan(iscn->scn)) symbol_handler(iscn, x, y); }
int zbar_scan_image (zbar_image_scanner_t *iscn, zbar_image_t *img) { /* timestamp image * FIXME prefer video timestamp */ #if _POSIX_TIMERS > 0 struct timespec abstime; clock_gettime(CLOCK_REALTIME, &abstime); iscn->time = (abstime.tv_sec * 1000) + ((abstime.tv_nsec / 500000) + 1) / 2; #else struct timeval abstime; gettimeofday(&abstime, NULL); iscn->time = (abstime.tv_sec * 1000) + ((abstime.tv_usec / 500) + 1) / 2; #endif #ifdef ENABLE_QRCODE _zbar_qr_reset(iscn->qr); #endif /* get grayscale image, convert if necessary */ if(img->format != fourcc('Y','8','0','0') && img->format != fourcc('G','R','E','Y')){ printf("ERROR: zbar unsupported format: %x ", img->format); return(-1); } iscn->img = img; /* recycle previous scanner and image results */ zbar_image_scanner_recycle_image(iscn, img); zbar_symbol_set_t *syms = iscn->syms; if(!syms) { syms = iscn->syms = _zbar_symbol_set_create(); STAT(syms_new); zbar_symbol_set_ref(syms, 1); } else zbar_symbol_set_ref(syms, 2); img->syms = syms; unsigned w = img->width; unsigned h = img->height; const uint8_t *data = img->data; zbar_image_write_png(img, "debug.png"); svg_open("debug.svg", 0, 0, w, h); svg_image("debug.png", w, h); zbar_scanner_t *scn = iscn->scn; int density = CFG(iscn, ZBAR_CFG_Y_DENSITY); if(density > 0) { svg_group_start("scanner", 0, 1, 1, 0, 0); const uint8_t *p = data; int x = 0, y = 0; iscn->dy = 0; int border = (((h - 1) % density) + 1) / 2; if(border > h / 2) border = h / 2; movedelta(0, border); iscn->v = y; zbar_scanner_new_scan(scn); while(y < h) { zprintf(128, "img_x+: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", 1. / 32, 0, y + 0.5); iscn->dx = iscn->du = 1; iscn->umin = 0; while(x < w) { uint8_t d = *p; movedelta(1, 0); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(-1, density); iscn->v = y; if(y >= h) break; zprintf(128, "img_x-: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", -1. / 32, w, y + 0.5); iscn->dx = iscn->du = -1; iscn->umin = w; while(x >= 0) { uint8_t d = *p; movedelta(-1, 0); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(1, density); iscn->v = y; } svg_group_end(); } iscn->dx = 0; density = CFG(iscn, ZBAR_CFG_X_DENSITY); if(density > 0) { svg_group_start("scanner", 90, 1, -1, 0, 0); const uint8_t *p = data; int x = 0, y = 0; int border = (((w - 1) % density) + 1) / 2; if(border > w / 2) border = w / 2; movedelta(border, 0); iscn->v = x; while(x < w) { zprintf(128, "img_y+: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", 1. / 32, 0, x + 0.5); iscn->dy = iscn->du = 1; iscn->umin = 0; while(y < h) { uint8_t d = *p; movedelta(0, 1); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(density, -1); iscn->v = x; if(x >= w) break; zprintf(128, "img_y-: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", -1. / 32, h, x + 0.5); iscn->dy = iscn->du = -1; iscn->umin = h; while(y >= 0) { uint8_t d = *p; movedelta(0, -1); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(density, 1); iscn->v = x; } svg_group_end(); } iscn->dy = 0; iscn->img = NULL; #ifdef ENABLE_QRCODE _zbar_qr_decode(iscn->qr, iscn, img); #endif /* FIXME tmp hack to filter bad EAN results */ if(syms->nsyms && !iscn->enable_cache && (density == 1 || CFG(iscn, ZBAR_CFG_Y_DENSITY) == 1)) { zbar_symbol_t **symp = &syms->head, *sym; while((sym = *symp)) { if(sym->type < ZBAR_I25 && sym->type > ZBAR_PARTIAL && sym->quality < 3) { /* recycle */ *symp = sym->next; syms->nsyms--; sym->next = NULL; _zbar_image_scanner_recycle_syms(iscn, sym); } else symp = &sym->next; } } if(syms->nsyms && iscn->handler) iscn->handler(img, iscn->userdata); svg_close(); return(syms->nsyms); }
int zbar_scan_image (zbar_image_scanner_t *iscn, zbar_image_t *img) { zbar_symbol_set_t *syms; const uint8_t *data; zbar_scanner_t *scn = iscn->scn; unsigned w, h, cx1, cy1; int density; /* timestamp image * FIXME prefer video timestamp */ iscn->time = _zbar_timer_now(); #ifdef ENABLE_QRCODE _zbar_qr_reset(iscn->qr); #endif /* image must be in grayscale format */ if(img->format != fourcc('Y','8','0','0') && img->format != fourcc('G','R','E','Y')) return(-1); iscn->img = img; /* recycle previous scanner and image results */ zbar_image_scanner_recycle_image(iscn, img); syms = iscn->syms; if(!syms) { syms = iscn->syms = _zbar_symbol_set_create(); STAT(syms_new); zbar_symbol_set_ref(syms, 1); } else zbar_symbol_set_ref(syms, 2); img->syms = syms; w = img->width; h = img->height; cx1 = img->crop_x + img->crop_w; assert(cx1 <= w); cy1 = img->crop_y + img->crop_h; assert(cy1 <= h); data = img->data; zbar_image_write_png(img, "debug.png"); svg_open("debug.svg", 0, 0, w, h); svg_image("debug.png", w, h); zbar_scanner_new_scan(scn); density = CFG(iscn, ZBAR_CFG_Y_DENSITY); if(density > 0) { const uint8_t *p = data; int x = 0, y = 0; int border = (((img->crop_h - 1) % density) + 1) / 2; if(border > img->crop_h / 2) border = img->crop_h / 2; border += img->crop_y; assert(border <= h); svg_group_start("scanner", 0, 1, 1, 0, 0); iscn->dy = 0; movedelta(img->crop_x, border); iscn->v = y; while(y < cy1) { int cx0 = img->crop_x;; zprintf(128, "img_x+: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", 1. / 32, 0, y + 0.5); iscn->dx = iscn->du = 1; iscn->umin = cx0; while(x < cx1) { uint8_t d = *p; movedelta(1, 0); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(-1, density); iscn->v = y; if(y >= cy1) break; zprintf(128, "img_x-: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", -1. / 32, w, y + 0.5); iscn->dx = iscn->du = -1; iscn->umin = cx1; while(x >= cx0) { uint8_t d = *p; movedelta(-1, 0); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(1, density); iscn->v = y; } svg_group_end(); } iscn->dx = 0; density = CFG(iscn, ZBAR_CFG_X_DENSITY); if(density > 0) { const uint8_t *p = data; int x = 0, y = 0; int border = (((img->crop_w - 1) % density) + 1) / 2; if(border > img->crop_w / 2) border = img->crop_w / 2; border += img->crop_x; assert(border <= w); svg_group_start("scanner", 90, 1, -1, 0, 0); movedelta(border, img->crop_y); iscn->v = x; while(x < cx1) { int cy0 = img->crop_y; zprintf(128, "img_y+: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", 1. / 32, 0, x + 0.5); iscn->dy = iscn->du = 1; iscn->umin = cy0; while(y < cy1) { uint8_t d = *p; movedelta(0, 1); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(density, -1); iscn->v = x; if(x >= cx1) break; zprintf(128, "img_y-: %04d,%04d @%p\n", x, y, p); svg_path_start("vedge", -1. / 32, h, x + 0.5); iscn->dy = iscn->du = -1; iscn->umin = cy1; while(y >= cy0) { uint8_t d = *p; movedelta(0, -1); zbar_scan_y(scn, d); } ASSERT_POS; quiet_border(iscn); svg_path_end(); movedelta(density, 1); iscn->v = x; } svg_group_end(); } iscn->dy = 0; iscn->img = NULL; #ifdef ENABLE_QRCODE _zbar_qr_decode(iscn->qr, iscn, img); #endif /* FIXME tmp hack to filter bad EAN results */ /* FIXME tmp hack to merge simple case EAN add-ons */ char filter = (!iscn->enable_cache && (density == 1 || CFG(iscn, ZBAR_CFG_Y_DENSITY) == 1)); int nean = 0, naddon = 0; if(syms->nsyms) { zbar_symbol_t **symp; for(symp = &syms->head; *symp; ) { zbar_symbol_t *sym = *symp; if(sym->cache_count <= 0 && ((sym->type < ZBAR_COMPOSITE && sym->type > ZBAR_PARTIAL) || sym->type == ZBAR_DATABAR || sym->type == ZBAR_DATABAR_EXP || sym->type == ZBAR_CODABAR)) { if((sym->type == ZBAR_CODABAR || filter) && sym->quality < 4) { if(iscn->enable_cache) { /* revert cache update */ zbar_symbol_t *entry = cache_lookup(iscn, sym); if(entry) entry->cache_count--; else assert(0); } /* recycle */ *symp = sym->next; syms->nsyms--; sym->next = NULL; _zbar_image_scanner_recycle_syms(iscn, sym); continue; } else if(sym->type < ZBAR_COMPOSITE && sym->type != ZBAR_ISBN10) { if(sym->type > ZBAR_EAN5) nean++; else naddon++; } } symp = &sym->next; } if(nean == 1 && naddon == 1 && iscn->ean_config) { /* create container symbol for composite result */ zbar_symbol_t *ean = NULL, *addon = NULL; for(symp = &syms->head; *symp; ) { zbar_symbol_t *sym = *symp; if(sym->type < ZBAR_COMPOSITE && sym->type > ZBAR_PARTIAL) { /* move to composite */ *symp = sym->next; syms->nsyms--; sym->next = NULL; if(sym->type <= ZBAR_EAN5) addon = sym; else ean = sym; } else symp = &sym->next; } assert(ean); assert(addon); int datalen = ean->datalen + addon->datalen + 1; zbar_symbol_t *ean_sym = _zbar_image_scanner_alloc_sym(iscn, ZBAR_COMPOSITE, datalen); ean_sym->orient = ean->orient; ean_sym->syms = _zbar_symbol_set_create(); memcpy(ean_sym->data, ean->data, ean->datalen); memcpy(ean_sym->data + ean->datalen, addon->data, addon->datalen + 1); ean_sym->syms->head = ean; ean->next = addon; ean_sym->syms->nsyms = 2; _zbar_image_scanner_add_sym(iscn, ean_sym); } } if(syms->nsyms && iscn->handler) iscn->handler(img, iscn->userdata); svg_close(); return(syms->nsyms); }
int zbar_scan_image (zbar_image_scanner_t *iscn, zbar_image_t *img) { recycle_syms(iscn, img); /* get grayscale image, convert if necessary */ img = zbar_image_convert(img, fourcc('Y','8','0','0')); if(!img) return(-1); unsigned w = zbar_image_get_width(img); unsigned h = zbar_image_get_height(img); const uint8_t *data = zbar_image_get_data(img); /* FIXME less arbitrary lead-out default */ int quiet = w / 32; if(quiet < 8) quiet = 8; int density = CFG(iscn, ZBAR_CFG_Y_DENSITY); if(density > 0) { const uint8_t *p = data; int x = 0, y = 0; int border = (((h - 1) % density) + 1) / 2; if(border > h / 2) border = h / 2; movedelta(0, border); if(zbar_scanner_new_scan(iscn->scn)) symbol_handler(iscn, x, y); while(y < h) { zprintf(32, "img_x+: %03x,%03x @%p\n", x, y, p); while(x < w) { ASSERT_POS; if(zbar_scan_y(iscn->scn, *p)) symbol_handler(iscn, x, y); movedelta(1, 0); } quiet_border(iscn, quiet, x, y); movedelta(-1, density); if(y >= h) break; zprintf(32, "img_x-: %03x,%03x @%p\n", x, y, p); while(x > 0) { ASSERT_POS; if(zbar_scan_y(iscn->scn, *p)) symbol_handler(iscn, x, y); movedelta(-1, 0); } quiet_border(iscn, quiet, x, y); movedelta(1, density); } } density = CFG(iscn, ZBAR_CFG_X_DENSITY); if(density > 0) { const uint8_t *p = data; int x = 0, y = 0; int border = (((w - 1) % density) + 1) / 2; if(border > w / 2) border = w / 2; movedelta(border, 0); while(x < w) { zprintf(32, "img_y+: %03x,%03x @%p\n", x, y, p); while(y < h) { ASSERT_POS; if(zbar_scan_y(iscn->scn, *p)) symbol_handler(iscn, x, y); movedelta(0, 1); } quiet_border(iscn, quiet, x, y); movedelta(density, -1); if(x >= w) break; zprintf(32, "img_y-: %03x,%03x @%p\n", x, y, p); while(y >= 0) { ASSERT_POS; if(zbar_scan_y(iscn->scn, *p)) symbol_handler(iscn, x, y); movedelta(0, -1); } quiet_border(iscn, quiet, x, y); movedelta(density, 1); } } /* release reference to converted image */ zbar_image_destroy(img); return(iscn->img->nsyms); }