tesseract/ccstruct/boxread.cpp

165 lines
6.2 KiB
C++

/**********************************************************************
* File: boxread.cpp
* Description: Read data from a box file.
* Author: Ray Smith
* Created: Fri Aug 24 17:47:23 PDT 2007
*
* (C) Copyright 2007, Google Inc.
** Licensed under the Apache License, Version 2.0 (the "License");
** you may not use this file except in compliance with the License.
** You may obtain a copy of the License at
** http://www.apache.org/licenses/LICENSE-2.0
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
** See the License for the specific language governing permissions and
** limitations under the License.
*
**********************************************************************/
#include "mfcpch.h"
#include "boxread.h"
#include <string.h>
#include "rect.h"
#include "strngs.h"
#include "tprintf.h"
#include "unichar.h"
// Special char code used to identify multi-blob labels.
static const char* kMultiBlobLabelCode = "WordStr";
// Open the boxfile based on the given image filename.
FILE* OpenBoxFile(const STRING& fname) {
STRING filename = fname;
const char *lastdot = strrchr(filename.string(), '.');
if (lastdot != NULL)
filename[lastdot - filename.string()] = '\0';
filename += ".box";
FILE* box_file = NULL;
if (!(box_file = fopen(filename.string(), "rb"))) {
CANTOPENFILE.error("read_next_box", TESSEXIT,
"Cant open box file %s",
filename.string());
}
return box_file;
}
// Box files are used ONLY DURING TRAINING, but by both processes of
// creating tr files with tesseract, and unicharset_extractor.
// ReadNextBox factors out the code to interpret a line of a box
// file so that applybox and unicharset_extractor interpret the same way.
// This function returns the next valid box file utf8 string and coords
// and returns true, or false on eof (and closes the file).
// It ignores the utf8 file signature ByteOrderMark (U+FEFF=EF BB BF), checks
// for valid utf-8 and allows space or tab between fields.
// utf8_str is set with the unichar string, and bounding box with the box.
// If there are page numbers in the file, it reads them all.
bool ReadNextBox(int *line_number, FILE* box_file,
STRING* utf8_str, TBOX* bounding_box) {
return ReadNextBox(-1, line_number, box_file, utf8_str, bounding_box);
}
// As ReadNextBox above, but get a specific page number. (0-based)
// Use -1 to read any page number. Files without page number all
// read as if they are page 0.
bool ReadNextBox(int target_page, int *line_number, FILE* box_file,
STRING* utf8_str, TBOX* bounding_box) {
int page = 0;
char buff[kBoxReadBufSize]; // boxfile read buffer
char *buffptr = buff;
while (fgets(buff, sizeof(buff) - 1, box_file)) {
(*line_number)++;
buffptr = buff;
const unsigned char *ubuf = reinterpret_cast<const unsigned char*>(buffptr);
if (ubuf[0] == 0xef && ubuf[1] == 0xbb && ubuf[2] == 0xbf)
buffptr += 3; // Skip unicode file designation.
// Check for blank lines in box file
while (*buffptr == ' ' || *buffptr == '\t')
buffptr++;
if (*buffptr != '\0') {
if (!ParseBoxFileStr(buffptr, &page, utf8_str, bounding_box)) {
tprintf("Box file format error on line %i; ignored\n", *line_number);
continue;
}
if (target_page >= 0 && target_page != page)
continue; // Not on the appropriate page.
return true; // Successfully read a box.
}
}
fclose(box_file);
return false; // EOF
}
// Parses the given box file string into a page_number, utf8_str, and
// bounding_box. Returns true on a successful parse.
// The box file is assumed to contain box definitions, one per line, of the
// following format for blob-level boxes:
// <UTF8 str> <left> <bottom> <right> <top> <page id>
// and for word/line-level boxes:
// WordStr <left> <bottom> <right> <top> <page id> #<space-delimited word str>
// See applyybox.cpp for more information.
bool ParseBoxFileStr(const char* boxfile_str, int* page_number,
STRING* utf8_str, TBOX* bounding_box) {
*bounding_box = TBOX(); // Initialize it to empty.
*utf8_str = "";
char uch[kBoxReadBufSize];
const char *buffptr = boxfile_str;
// Read the unichar without messing up on Tibetan.
// According to issue 253 the utf-8 surrogates 85 and A0 are treated
// as whitespace by sscanf, so it is more reliable to just find
// ascii space and tab.
int uch_len = 0;
while (*buffptr != '\0' && *buffptr != ' ' && *buffptr != '\t' &&
uch_len < kBoxReadBufSize - 1) {
uch[uch_len++] = *buffptr++;
}
uch[uch_len] = '\0';
if (*buffptr != '\0') ++buffptr;
int x_min, y_min, x_max, y_max;
*page_number = 0;
int count = sscanf(buffptr, "%d %d %d %d %d",
&x_min, &y_min, &x_max, &y_max, page_number);
if (count != 5 && count != 4) {
tprintf("Bad box coordinates in boxfile string!\n");
return false;
}
// Test for long space-delimited string label.
if (strcmp(uch, kMultiBlobLabelCode) == 0 &&
(buffptr = strchr(buffptr, '#')) != NULL) {
strncpy(uch, buffptr + 1, kBoxReadBufSize);
chomp_string(uch);
uch_len = strlen(uch);
}
// Validate UTF8 by making unichars with it.
int used = 0;
while (used < uch_len) {
UNICHAR ch(uch + used, uch_len - used);
int new_used = ch.utf8_len();
if (new_used == 0) {
tprintf("Bad UTF-8 str %s starts with 0x%02x at col %d\n",
uch + used, uch[used], used + 1);
return false;
}
used += new_used;
}
*utf8_str = uch;
bounding_box->set_to_given_coords(x_min, y_min, x_max, y_max);
return true; // Successfully read a box.
}
// Creates a box file string from a unichar string, TBOX and page number.
void MakeBoxFileStr(const char* unichar_str, const TBOX& box, int page_num,
STRING* box_str) {
*box_str = unichar_str;
box_str->add_str_int(" ", box.left());
box_str->add_str_int(" ", box.bottom());
box_str->add_str_int(" ", box.right());
box_str->add_str_int(" ", box.top());
box_str->add_str_int(" ", page_num);
}