tesseract/classify/protos.cpp

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/* -*-C-*-
********************************************************************************
*
* File: protos.c (Formerly protos.c)
* Description:
* Author: Mark Seaman, OCR Technology
* Created: Fri Oct 16 14:37:00 1987
* Modified: Mon Mar 4 14:51:24 1991 (Dan Johnson) danj@hpgrlj
* Language: C
* Package: N/A
* Status: Reusable Software Component
*
* (c) Copyright 1987, Hewlett-Packard Company.
** 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.
*
*********************************************************************************/
/*----------------------------------------------------------------------
I n c l u d e s
----------------------------------------------------------------------*/
#include "protos.h"
#include "debug.h"
#include "const.h"
#include "emalloc.h"
#include "freelist.h"
#include "callcpp.h"
#include "tprintf.h"
#include "adaptmatch.h"
#include "scanutils.h"
#include "globals.h"
#include <stdio.h>
#include <math.h>
#define PROTO_INCREMENT 32
#define CONFIG_INCREMENT 16
/*----------------------------------------------------------------------
V a r i a b l e s
----------------------------------------------------------------------*/
CLASS_STRUCT TrainingData[NUMBER_OF_CLASSES];
char *TrainingFile;
//extern int LearningDebugLevel;
/*----------------------------------------------------------------------
F u n c t i o n s
----------------------------------------------------------------------*/
/**********************************************************************
* AddConfigToClass
*
* Add a new config to this class. Malloc new space and copy the
* old configs if necessary. Return the config id for the new config.
**********************************************************************/
int AddConfigToClass(CLASS_TYPE Class) {
int NewNumConfigs;
int NewConfig;
int MaxNumProtos;
BIT_VECTOR Config;
MaxNumProtos = Class->MaxNumProtos;
if (Class->NumConfigs >= Class->MaxNumConfigs) {
/* add configs in CONFIG_INCREMENT chunks at a time */
NewNumConfigs = (((Class->MaxNumConfigs + CONFIG_INCREMENT) /
CONFIG_INCREMENT) * CONFIG_INCREMENT);
Class->Configurations =
(CONFIGS) Erealloc (Class->Configurations,
sizeof (BIT_VECTOR) * NewNumConfigs);
Class->MaxNumConfigs = NewNumConfigs;
}
NewConfig = Class->NumConfigs;
Class->NumConfigs++;
Config = NewBitVector (MaxNumProtos);
Class->Configurations[NewConfig] = Config;
zero_all_bits (Config, WordsInVectorOfSize (MaxNumProtos));
return (NewConfig);
}
/**********************************************************************
* AddProtoToClass
*
* Add a new proto to this class. Malloc new space and copy the
* old protos if necessary. Return the proto id for the new proto.
**********************************************************************/
int AddProtoToClass(CLASS_TYPE Class) {
int i;
int Bit;
int NewNumProtos;
int NewProto;
BIT_VECTOR Config;
if (Class->NumProtos >= Class->MaxNumProtos) {
/* add protos in PROTO_INCREMENT chunks at a time */
NewNumProtos = (((Class->MaxNumProtos + PROTO_INCREMENT) /
PROTO_INCREMENT) * PROTO_INCREMENT);
Class->Prototypes = (PROTO) Erealloc (Class->Prototypes,
sizeof (PROTO_STRUCT) *
NewNumProtos);
Class->MaxNumProtos = NewNumProtos;
for (i = 0; i < Class->NumConfigs; i++) {
Config = Class->Configurations[i];
Class->Configurations[i] = ExpandBitVector (Config, NewNumProtos);
for (Bit = Class->NumProtos; Bit < NewNumProtos; Bit++)
reset_bit(Config, Bit);
}
}
NewProto = Class->NumProtos++;
if (Class->NumProtos > MAX_NUM_PROTOS) {
tprintf("Ouch! number of protos = %d, vs max of %d!",
Class->NumProtos, MAX_NUM_PROTOS);
}
return (NewProto);
}
/**********************************************************************
* ClassConfigLength
*
* Return the length of all the protos in this class.
**********************************************************************/
FLOAT32 ClassConfigLength(CLASS_TYPE Class, BIT_VECTOR Config) {
inT16 Pid;
FLOAT32 TotalLength = 0;
for (Pid = 0; Pid < Class->NumProtos; Pid++) {
if (test_bit (Config, Pid)) {
TotalLength += (ProtoIn (Class, Pid))->Length;
}
}
return (TotalLength);
}
/**********************************************************************
* ClassProtoLength
*
* Return the length of all the protos in this class.
**********************************************************************/
FLOAT32 ClassProtoLength(CLASS_TYPE Class) {
inT16 Pid;
FLOAT32 TotalLength = 0;
for (Pid = 0; Pid < Class->NumProtos; Pid++) {
TotalLength += (ProtoIn (Class, Pid))->Length;
}
return (TotalLength);
}
/**********************************************************************
* CopyProto
*
* Copy the first proto into the second.
**********************************************************************/
void CopyProto(PROTO Src, PROTO Dest) {
Dest->X = Src->X;
Dest->Y = Src->Y;
Dest->Length = Src->Length;
Dest->Angle = Src->Angle;
Dest->A = Src->A;
Dest->B = Src->B;
Dest->C = Src->C;
}
/**********************************************************************
* FillABC
*
* Fill in Protos A, B, C fields based on the X, Y, Angle fields.
**********************************************************************/
void FillABC(PROTO Proto) {
FLOAT32 Slope, Intercept, Normalizer;
Slope = tan (Proto->Angle * 2.0 * PI);
Intercept = Proto->Y - Slope * Proto->X;
Normalizer = 1.0 / sqrt (Slope * Slope + 1.0);
Proto->A = Slope * Normalizer;
Proto->B = -Normalizer;
Proto->C = Intercept * Normalizer;
}
/**********************************************************************
* FreeClass
*
* Deallocate the memory consumed by the specified class.
**********************************************************************/
void FreeClass(CLASS_TYPE Class) {
if (Class) {
FreeClassFields(Class);
memfree(Class);
}
}
/**********************************************************************
* FreeClassFields
*
* Deallocate the memory consumed by subfields of the specified class.
**********************************************************************/
void FreeClassFields(CLASS_TYPE Class) {
int i;
if (Class) {
if (Class->MaxNumProtos > 0)
memfree (Class->Prototypes);
if (Class->MaxNumConfigs > 0) {
for (i = 0; i < Class->NumConfigs; i++)
FreeBitVector (Class->Configurations[i]);
memfree (Class->Configurations);
}
}
}
/**********************************************************************
* InitPrototypes
*
* Initialize anything that needs to be initialized to work with the
* functions in this file.
**********************************************************************/
void InitPrototypes() {
string_variable (TrainingFile, "TrainingFile", "MicroFeatures");
}
/**********************************************************************
* NewClass
*
* Allocate a new class with enough memory to hold the specified number
* of prototypes and configurations.
**********************************************************************/
CLASS_TYPE NewClass(int NumProtos, int NumConfigs) {
CLASS_TYPE Class;
Class = (CLASS_TYPE) Emalloc (sizeof (CLASS_STRUCT));
if (NumProtos > 0)
Class->Prototypes = (PROTO) Emalloc (NumProtos * sizeof (PROTO_STRUCT));
if (NumConfigs > 0)
Class->Configurations = (CONFIGS) Emalloc (NumConfigs *
sizeof (BIT_VECTOR));
Class->MaxNumProtos = NumProtos;
Class->MaxNumConfigs = NumConfigs;
Class->NumProtos = 0;
Class->NumConfigs = 0;
return (Class);
}
/**********************************************************************
* PrintProtos
*
* Print the list of prototypes in this class type.
**********************************************************************/
void PrintProtos(CLASS_TYPE Class) {
inT16 Pid;
for (Pid = 0; Pid < Class->NumProtos; Pid++) {
cprintf ("Proto %d:\t", Pid);
PrintProto (ProtoIn (Class, Pid));
cprintf ("\t");
PrintProtoLine (ProtoIn (Class, Pid));
new_line();
}
}
/**********************************************************************
* ReadClassFile
*
* Read in the training data from a file. All of the classes are read
* in. The results are stored in the global variable, 'TrainingData'.
**********************************************************************/
void ReadClassFile() {
FILE *File;
char TextLine[CHARS_PER_LINE];
char unichar[CHARS_PER_LINE];
cprintf ("Reading training data from '%s' ...", TrainingFile);
fflush(stdout);
File = open_file (TrainingFile, "r");
while (fgets (TextLine, CHARS_PER_LINE, File) != NULL) {
sscanf(TextLine, "%s", unichar);
ReadClassFromFile (File, unicharset.unichar_to_id(unichar));
fgets(TextLine, CHARS_PER_LINE, File);
fgets(TextLine, CHARS_PER_LINE, File);
}
fclose(File);
new_line();
}
/**********************************************************************
* ReadClassFromFile
*
* Read in a class description (protos and configs) from a file. Update
* the class structure record.
**********************************************************************/
void ReadClassFromFile(FILE *File, UNICHAR_ID unichar_id) {
CLASS_TYPE Class;
Class = &TrainingData[unichar_id];
ReadProtos(File, Class);
ReadConfigs(File, Class);
}
/**********************************************************************
* ReadConfigs
*
* Read the prototype configurations for this class from a file. Read
* the requested number of lines.
**********************************************************************/
void ReadConfigs(register FILE *File, CLASS_TYPE Class) {
inT16 Cid;
register inT16 Wid;
register BIT_VECTOR ThisConfig;
int NumWords;
int NumConfigs;
fscanf (File, "%d %d\n", &NumConfigs, &NumWords);
Class->NumConfigs = NumConfigs;
Class->MaxNumConfigs = NumConfigs;
Class->Configurations =
(CONFIGS) Emalloc (sizeof (BIT_VECTOR) * NumConfigs);
NumWords = WordsInVectorOfSize (Class->NumProtos);
for (Cid = 0; Cid < NumConfigs; Cid++) {
ThisConfig = NewBitVector (Class->NumProtos);
for (Wid = 0; Wid < NumWords; Wid++)
fscanf (File, "%x", &ThisConfig[Wid]);
Class->Configurations[Cid] = ThisConfig;
}
}
/**********************************************************************
* ReadProtos
*
* Read in all the prototype information from a file. Read the number
* of lines requested.
**********************************************************************/
void ReadProtos(register FILE *File, CLASS_TYPE Class) {
register inT16 Pid;
register PROTO Proto;
int NumProtos;
fscanf (File, "%d\n", &NumProtos);
Class->NumProtos = NumProtos;
Class->MaxNumProtos = NumProtos;
Class->Prototypes = (PROTO) Emalloc (sizeof (PROTO_STRUCT) * NumProtos);
for (Pid = 0; Pid < NumProtos; Pid++) {
Proto = ProtoIn (Class, Pid);
fscanf (File, "%f %f %f %f %f %f %f\n",
&Proto->X,
&Proto->Y,
&Proto->Length,
&Proto->Angle,
&Proto->A,
&Proto->B, &Proto->C);
}
}
/**********************************************************************
* SplitProto
*
* Add a new proto to this class. Malloc new space and copy the
* old protos if necessary. Return the proto id for the new proto.
* Update all configurations so that each config which contained the
* specified old proto will also contain the new proto. The caller
* is responsible for actually filling in the appropriate proto params.
**********************************************************************/
int SplitProto(CLASS_TYPE Class, int OldPid) {
int i;
int NewPid;
BIT_VECTOR Config;
NewPid = AddProtoToClass (Class);
for (i = 0; i < Class->NumConfigs; i++) {
Config = Class->Configurations[i];
if (test_bit (Config, OldPid))
SET_BIT(Config, NewPid);
}
return (NewPid);
}
/**********************************************************************
* WriteOldConfigFile
*
* Write the configs in the given class to the specified file in the
* old config format.
**********************************************************************/
void WriteOldConfigFile(FILE *File, CLASS_TYPE Class) {
int Cid, Pid;
BIT_VECTOR Config;
fprintf (File, "%d %d\n", Class->NumConfigs, Class->NumProtos);
for (Cid = 0; Cid < Class->NumConfigs; Cid++) {
fprintf (File, "1 ");
Config = Class->Configurations[Cid];
for (Pid = 0; Pid < Class->NumProtos; Pid++) {
if (test_bit (Config, Pid))
fprintf (File, "1");
else
fprintf (File, "0");
}
fprintf (File, "\n");
}
}
/**********************************************************************
* WriteOldProtoFile
*
* Write the protos in the given class to the specified file in the
* old proto format.
**********************************************************************/
void WriteOldProtoFile(FILE *File, CLASS_TYPE Class) {
int Pid;
PROTO Proto;
/* print old header */
fprintf (File, "6\n");
fprintf (File, "linear essential -0.500000 0.500000\n");
fprintf (File, "linear essential -0.250000 0.750000\n");
fprintf (File, "linear essential 0.000000 1.000000\n");
fprintf (File, "circular essential 0.000000 1.000000\n");
fprintf (File, "linear non-essential -0.500000 0.500000\n");
fprintf (File, "linear non-essential -0.500000 0.500000\n");
for (Pid = 0; Pid < Class->NumProtos; Pid++) {
Proto = ProtoIn (Class, Pid);
fprintf (File, "significant elliptical 1\n");
fprintf (File, " %9.6f %9.6f %9.6f %9.6f %9.6f %9.6f\n",
Proto->X, Proto->Y,
Proto->Length, Proto->Angle, 0.0, 0.0);
fprintf (File, " %9.6f %9.6f %9.6f %9.6f %9.6f %9.6f\n",
0.0001, 0.0001, 0.0001, 0.0001, 0.0001, 0.0001);
}
}