classify/adaptive.cpp - platform/external/tesseract - Git at Google

 /******************************************************************************
  **	Filename:    adaptive.c
  **	Purpose:     Adaptive matcher.
  **	Author:      Dan Johnson
  **	History:     Fri Mar  8 10:00:21 1991, DSJ, Created.
  **
  **	(c) Copyright Hewlett-Packard Company, 1988.
  ** 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 Files and Type Defines
 ----------------------------------------------------------------------------**/
 #include "adaptive.h"
 #include "emalloc.h"
 #include "freelist.h"
 #include "globals.h"
 #include "classify.h"

 #ifdef __UNIX__
 #include <assert.h>
 #endif
 #include <stdio.h>

 /**----------------------------------------------------------------------------
               Public Code
 ----------------------------------------------------------------------------**/
 /*---------------------------------------------------------------------------*/
 void AddAdaptedClass(ADAPT_TEMPLATES Templates,
                      ADAPT_CLASS Class,
                      CLASS_ID ClassId) {
 /*
  **	Parameters:
  **		Templates	set of templates to add new class to
  **		Class		new class to add to templates
  **		ClassId		class id to associate with new class
  **	Globals: none
  **	Operation: This routine adds a new adapted class to an existing
  **		set of adapted templates.
  **	Return: none
  **	Exceptions: none
  **	History: Thu Mar 14 13:06:09 1991, DSJ, Created.
  */
   INT_CLASS IntClass;

   assert (Templates != NULL);
   assert (Class != NULL);
   assert (LegalClassId (ClassId));
   assert (UnusedClassIdIn (Templates->Templates, ClassId));
   assert (Class->NumPermConfigs == 0);

   IntClass = NewIntClass (1, 1);
   AddIntClass (Templates->Templates, ClassId, IntClass);

   assert (Templates->Class[ClassId] == NULL);
   Templates->Class[ClassId] = Class;

 }                                /* AddAdaptedClass */


 /*---------------------------------------------------------------------------*/
 void FreeTempConfig(TEMP_CONFIG Config) {
 /*
  **	Parameters:
  **		Config	config to be freed
  **	Globals: none
  **	Operation: This routine frees all memory consumed by a temporary
  **		configuration.
  **	Return: none
  **	Exceptions: none
  **	History: Thu Mar 14 13:34:23 1991, DSJ, Created.
  */
   assert (Config != NULL);

   destroy_nodes (Config->ContextsSeen, memfree);
   FreeBitVector (Config->Protos);
   free_struct (Config, sizeof (TEMP_CONFIG_STRUCT), "TEMP_CONFIG_STRUCT");

 }                                /* FreeTempConfig */


 /*---------------------------------------------------------------------------*/
 void FreeTempProto(void *arg) {
   PROTO proto = (PROTO) arg;

   free_struct (proto, sizeof (TEMP_PROTO_STRUCT), "TEMP_PROTO_STRUCT");
 }


 /*---------------------------------------------------------------------------*/
 ADAPT_CLASS NewAdaptedClass() {
 /*
  **	Parameters: none
  **	Globals: none
  **	Operation: This operation allocates and initializes a new adapted
  **		class data structure and returns a ptr to it.
  **	Return: Ptr to new class data structure.
  **	Exceptions: none
  **	History: Thu Mar 14 12:58:13 1991, DSJ, Created.
  */
   ADAPT_CLASS Class;
   int i;

   Class = (ADAPT_CLASS) Emalloc (sizeof (ADAPT_CLASS_STRUCT));
   Class->NumPermConfigs = 0;
   Class->TempProtos = NIL;

   Class->PermProtos = NewBitVector (MAX_NUM_PROTOS);
   Class->PermConfigs = NewBitVector (MAX_NUM_CONFIGS);
   zero_all_bits (Class->PermProtos, WordsInVectorOfSize (MAX_NUM_PROTOS));
   zero_all_bits (Class->PermConfigs, WordsInVectorOfSize (MAX_NUM_CONFIGS));

   for (i = 0; i < MAX_NUM_CONFIGS; i++)
     TempConfigFor (Class, i) = NULL;

   return (Class);

 }                                /* NewAdaptedClass */


 /*-------------------------------------------------------------------------*/
 void free_adapted_class(ADAPT_CLASS adapt_class) {
   int i;

   for (i = 0; i < MAX_NUM_CONFIGS; i++) {
     if (ConfigIsPermanent (adapt_class, i)
       && PermConfigFor (adapt_class, i) != NULL)
       Efree (PermConfigFor (adapt_class, i));
     else if (!ConfigIsPermanent (adapt_class, i)
       && TempConfigFor (adapt_class, i) != NULL)
       FreeTempConfig (TempConfigFor (adapt_class, i));
   }
   FreeBitVector (adapt_class->PermProtos);
   FreeBitVector (adapt_class->PermConfigs);
   destroy_nodes (adapt_class->TempProtos, FreeTempProto);
   Efree(adapt_class);
 }


 /*---------------------------------------------------------------------------*/
 namespace tesseract {
 ADAPT_TEMPLATES Classify::NewAdaptedTemplates(bool InitFromUnicharset) {
 /*
  **	Parameters:
  **		PopulateFromUnicharset      if true, add an empty class for
  **                                         each char in unicharset to the
  **                                         newly created templates
  **	Globals: none
  **	Operation: Allocates memory for adapted tempates.
  **	Return: Ptr to new adapted templates.
  **	Exceptions: none
  **	History: Fri Mar  8 10:15:28 1991, DSJ, Created.
  */
   ADAPT_TEMPLATES Templates;
   int i;

   Templates = (ADAPT_TEMPLATES) Emalloc (sizeof (ADAPT_TEMPLATES_STRUCT));

   Templates->Templates = NewIntTemplates ();
   Templates->NumPermClasses = 0;
   Templates->NumNonEmptyClasses = 0;

   /* Insert an empty class for each unichar id in unicharset */
   for (i = 0; i < MAX_NUM_CLASSES; i++) {
     Templates->Class[i] = NULL;
     if (InitFromUnicharset && i < unicharset.size()) {
       AddAdaptedClass(Templates, NewAdaptedClass(), i);
     }
   }

   return (Templates);

 }                                /* NewAdaptedTemplates */
 }  // namespace tesseract

 /*----------------------------------------------------------------------------*/
 void free_adapted_templates(ADAPT_TEMPLATES templates) {

   if (templates != NULL) {
     int i;
     for (i = 0; i < NumClassesIn (templates->Templates); i++)
       free_adapted_class (templates->Class[i]);
     free_int_templates (templates->Templates);
     Efree(templates);
   }
 }


 /*---------------------------------------------------------------------------*/
 TEMP_CONFIG NewTempConfig(int MaxProtoId) {
 /*
  **	Parameters:
  **		MaxProtoId	max id of any proto in new config
  **	Globals: none
  **	Operation: This routine allocates and returns a new temporary
  **		config.
  **	Return: Ptr to new temp config.
  **	Exceptions: none
  **	History: Thu Mar 14 13:28:21 1991, DSJ, Created.
  */
   TEMP_CONFIG Config;
   int NumProtos = MaxProtoId + 1;

   Config =
     (TEMP_CONFIG) alloc_struct (sizeof (TEMP_CONFIG_STRUCT),
     "TEMP_CONFIG_STRUCT");
   Config->Protos = NewBitVector (NumProtos);

   Config->NumTimesSeen = 1;
   Config->MaxProtoId = MaxProtoId;
   Config->ProtoVectorSize = WordsInVectorOfSize (NumProtos);
   Config->ContextsSeen = NIL;
   zero_all_bits (Config->Protos, Config->ProtoVectorSize);

   return (Config);

 }                                /* NewTempConfig */


 /*---------------------------------------------------------------------------*/
 TEMP_PROTO NewTempProto() {
 /*
  **	Parameters: none
  **	Globals: none
  **	Operation: This routine allocates and returns a new temporary proto.
  **	Return: Ptr to new temporary proto.
  **	Exceptions: none
  **	History: Thu Mar 14 13:31:31 1991, DSJ, Created.
  */
   return ((TEMP_PROTO)
     alloc_struct (sizeof (TEMP_PROTO_STRUCT), "TEMP_PROTO_STRUCT"));
 }                                /* NewTempProto */


 /*---------------------------------------------------------------------------*/
 namespace tesseract {
 void Classify::PrintAdaptedTemplates(FILE *File, ADAPT_TEMPLATES Templates) {
 /*
  **	Parameters:
  **		File		open text file to print Templates to
  **		Templates	adapted templates to print to File
  **	Globals: none
  **	Operation: This routine prints a summary of the adapted templates
  **		in Templates to File.
  **	Return: none
  **	Exceptions: none
  **	History: Wed Mar 20 13:35:29 1991, DSJ, Created.
  */
   int i;
   INT_CLASS IClass;
   ADAPT_CLASS AClass;

   #ifndef SECURE_NAMES
   fprintf (File, "\n\nSUMMARY OF ADAPTED TEMPLATES:\n\n");
   fprintf (File, "Num classes = %d;  Num permanent classes = %d\n\n",
     NumNonEmptyClassesIn (Templates), Templates->NumPermClasses);
   fprintf (File, "   Id  NC NPC  NP NPP\n");
   fprintf (File, "------------------------\n");

   for (i = 0; i < NumClassesIn (Templates->Templates); i++) {
     IClass = ClassForClassId (Templates->Templates, i);
     AClass = Templates->Class[i];
     if (!IsEmptyAdaptedClass (AClass)) {
       fprintf (File, "%5d  %s %3d %3d %3d %3d\n",
         i, unicharset.id_to_unichar(i), NumIntConfigsIn (IClass),
         AClass->NumPermConfigs, NumIntProtosIn (IClass),
         NumIntProtosIn (IClass) - count (AClass->TempProtos));
     }
   }
   #endif
   fprintf (File, "\n");

 }                                /* PrintAdaptedTemplates */
 }  // namespace tesseract


 /*---------------------------------------------------------------------------*/
 ADAPT_CLASS ReadAdaptedClass(FILE *File) {
 /*
  **	Parameters:
  **		File	open file to read adapted class from
  **	Globals: none
  **	Operation: Read an adapted class description from File and return
  **		a ptr to the adapted class.
  **	Return: Ptr to new adapted class.
  **	Exceptions: none
  **	History: Tue Mar 19 14:11:01 1991, DSJ, Created.
  */
   int NumTempProtos;
   int NumConfigs;
   int i;
   ADAPT_CLASS Class;
   TEMP_PROTO TempProto;

   /* first read high level adapted class structure */
   Class = (ADAPT_CLASS) Emalloc (sizeof (ADAPT_CLASS_STRUCT));
   fread ((char *) Class, sizeof (ADAPT_CLASS_STRUCT), 1, File);

   /* then read in the definitions of the permanent protos and configs */
   Class->PermProtos = NewBitVector (MAX_NUM_PROTOS);
   Class->PermConfigs = NewBitVector (MAX_NUM_CONFIGS);
   fread ((char *) Class->PermProtos, sizeof (uinT32),
     WordsInVectorOfSize (MAX_NUM_PROTOS), File);
   fread ((char *) Class->PermConfigs, sizeof (uinT32),
     WordsInVectorOfSize (MAX_NUM_CONFIGS), File);

   /* then read in the list of temporary protos */
   fread ((char *) &NumTempProtos, sizeof (int), 1, File);
   Class->TempProtos = NIL;
   for (i = 0; i < NumTempProtos; i++) {
     TempProto =
       (TEMP_PROTO) alloc_struct (sizeof (TEMP_PROTO_STRUCT),
       "TEMP_PROTO_STRUCT");
     fread ((char *) TempProto, sizeof (TEMP_PROTO_STRUCT), 1, File);
     Class->TempProtos = push_last (Class->TempProtos, TempProto);
   }

   /* then read in the adapted configs */
   fread ((char *) &NumConfigs, sizeof (int), 1, File);
   for (i = 0; i < NumConfigs; i++)
     if (test_bit (Class->PermConfigs, i))
       Class->Config[i].Perm = ReadPermConfig (File);
     else
       Class->Config[i].Temp = ReadTempConfig (File);

   return (Class);

 }                                /* ReadAdaptedClass */


 /*---------------------------------------------------------------------------*/
 namespace tesseract {
 ADAPT_TEMPLATES Classify::ReadAdaptedTemplates(FILE *File) {
 /*
  **	Parameters:
  **		File	open text file to read adapted templates from
  **	Globals: none
  **	Operation: Read a set of adapted templates from File and return
  **		a ptr to the templates.
  **	Return: Ptr to adapted templates read from File.
  **	Exceptions: none
  **	History: Mon Mar 18 15:18:10 1991, DSJ, Created.
  */
   int i;
   ADAPT_TEMPLATES Templates;

   /* first read the high level adaptive template struct */
   Templates = (ADAPT_TEMPLATES) Emalloc (sizeof (ADAPT_TEMPLATES_STRUCT));
   fread ((char *) Templates, sizeof (ADAPT_TEMPLATES_STRUCT), 1, File);

   /* then read in the basic integer templates */
   Templates->Templates = ReadIntTemplates (File);

   /* then read in the adaptive info for each class */
   for (i = 0; i < NumClassesIn (Templates->Templates); i++) {
     Templates->Class[i] = ReadAdaptedClass (File);
   }
   return (Templates);

 }                                /* ReadAdaptedTemplates */
 }  // namespace tesseract


 /*---------------------------------------------------------------------------*/
 PERM_CONFIG ReadPermConfig(FILE *File) {
 /*
  **	Parameters:
  **		File	open file to read permanent config from
  **	Globals: none
  **	Operation: Read a permanent configuration description from File
  **		and return a ptr to it.
  **	Return: Ptr to new permanent configuration description.
  **	Exceptions: none
  **	History: Tue Mar 19 14:25:26 1991, DSJ, Created.
  */
   PERM_CONFIG Config;
   uinT8 NumAmbigs;

   fread ((char *) &NumAmbigs, sizeof (uinT8), 1, File);
   Config = (PERM_CONFIG) Emalloc (sizeof (UNICHAR_ID) * (NumAmbigs + 1));
   fread (Config, sizeof (UNICHAR_ID), NumAmbigs, File);
   Config[NumAmbigs] = -1;

   return (Config);

 }                                /* ReadPermConfig */


 /*---------------------------------------------------------------------------*/
 TEMP_CONFIG ReadTempConfig(FILE *File) {
 /*
  **	Parameters:
  **		File	open file to read temporary config from
  **	Globals: none
  **	Operation:  Read a temporary configuration description from File
  **		and return a ptr to it.
  **	Return: Ptr to new temporary configuration description.
  **	Exceptions: none
  **	History: Tue Mar 19 14:29:59 1991, DSJ, Created.
  */
   TEMP_CONFIG Config;

   Config =
     (TEMP_CONFIG) alloc_struct (sizeof (TEMP_CONFIG_STRUCT),
     "TEMP_CONFIG_STRUCT");
   fread ((char *) Config, sizeof (TEMP_CONFIG_STRUCT), 1, File);

   Config->Protos = NewBitVector (Config->ProtoVectorSize * BITSINLONG);
   fread ((char *) Config->Protos, sizeof (uinT32),
     Config->ProtoVectorSize, File);

   return (Config);

 }                                /* ReadTempConfig */


 /*---------------------------------------------------------------------------*/
 void WriteAdaptedClass(FILE *File, ADAPT_CLASS Class, int NumConfigs) {
 /*
  **	Parameters:
  **		File		open file to write Class to
  **		Class		adapted class to write to File
  **		NumConfigs	number of configs in Class
  **	Globals: none
  **	Operation: This routine writes a binary representation of Class
  **		to File.
  **	Return: none
  **	Exceptions: none
  **	History: Tue Mar 19 13:33:51 1991, DSJ, Created.
  */
   int NumTempProtos;
   LIST TempProtos;
   int i;

   /* first write high level adapted class structure */
   fwrite ((char *) Class, sizeof (ADAPT_CLASS_STRUCT), 1, File);

   /* then write out the definitions of the permanent protos and configs */
   fwrite ((char *) Class->PermProtos, sizeof (uinT32),
     WordsInVectorOfSize (MAX_NUM_PROTOS), File);
   fwrite ((char *) Class->PermConfigs, sizeof (uinT32),
     WordsInVectorOfSize (MAX_NUM_CONFIGS), File);

   /* then write out the list of temporary protos */
   NumTempProtos = count (Class->TempProtos);
   fwrite ((char *) &NumTempProtos, sizeof (int), 1, File);
   TempProtos = Class->TempProtos;
   iterate (TempProtos) {
     void* proto = first_node(TempProtos);
     fwrite ((char *) proto, sizeof (TEMP_PROTO_STRUCT), 1, File);
   }

   /* then write out the adapted configs */
   fwrite ((char *) &NumConfigs, sizeof (int), 1, File);
   for (i = 0; i < NumConfigs; i++)
     if (test_bit (Class->PermConfigs, i))
       WritePermConfig (File, Class->Config[i].Perm);
     else
       WriteTempConfig (File, Class->Config[i].Temp);

 }                                /* WriteAdaptedClass */


 /*---------------------------------------------------------------------------*/
 namespace tesseract {
 void Classify::WriteAdaptedTemplates(FILE *File, ADAPT_TEMPLATES Templates) {
 /*
  **	Parameters:
  **		File		open text file to write Templates to
  **		Templates	set of adapted templates to write to File
  **	Globals: none
  **	Operation: This routine saves Templates to File in a binary format.
  **	Return: none
  **	Exceptions: none
  **	History: Mon Mar 18 15:07:32 1991, DSJ, Created.
  */
   int i;

   /* first write the high level adaptive template struct */
   fwrite ((char *) Templates, sizeof (ADAPT_TEMPLATES_STRUCT), 1, File);

   /* then write out the basic integer templates */
   WriteIntTemplates (File, Templates->Templates, unicharset);

   /* then write out the adaptive info for each class */
   for (i = 0; i < NumClassesIn (Templates->Templates); i++) {
     WriteAdaptedClass (File, Templates->Class[i],
                        NumIntConfigsIn (ClassForClassId
                                         (Templates->Templates, i)));
   }
 }                                /* WriteAdaptedTemplates */
 }  // namespace tesseract


 /*---------------------------------------------------------------------------*/
 void WritePermConfig(FILE *File, PERM_CONFIG Config) {
 /*
  **	Parameters:
  **		File	open file to write Config to
  **		Config	permanent config to write to File
  **	Globals: none
  **	Operation: This routine writes a binary representation of a
  **		permanent configuration to File.
  **	Return: none
  **	Exceptions: none
  **	History: Tue Mar 19 13:55:44 1991, DSJ, Created.
  */
   uinT8 NumAmbigs = 0;

   assert (Config != NULL);
   while (Config[NumAmbigs] > 0)
     ++NumAmbigs;

   fwrite ((char *) &NumAmbigs, sizeof (uinT8), 1, File);
   fwrite (Config, sizeof (UNICHAR_ID), NumAmbigs, File);

 }                                /* WritePermConfig */


 /*---------------------------------------------------------------------------*/
 void WriteTempConfig(FILE *File, TEMP_CONFIG Config) {
 /*
  **	Parameters:
  **		File	open file to write Config to
  **		Config	temporary config to write to File
  **	Globals: none
  **	Operation: This routine writes a binary representation of a
  **		temporary configuration to File.
  **	Return: none
  **	Exceptions: none
  **	History: Tue Mar 19 14:00:28 1991, DSJ, Created.
  */
   assert (Config != NULL);
                                  /* contexts not yet implemented */
   assert (Config->ContextsSeen == NULL);

   fwrite ((char *) Config, sizeof (TEMP_CONFIG_STRUCT), 1, File);
   fwrite ((char *) Config->Protos, sizeof (uinT32),
     Config->ProtoVectorSize, File);

 }                                /* WriteTempConfig */
	/******************************************************************************
	** Filename: adaptive.c
	** Purpose: Adaptive matcher.
	** Author: Dan Johnson
	** History: Fri Mar 8 10:00:21 1991, DSJ, Created.
	**
	** (c) Copyright Hewlett-Packard Company, 1988.
	** 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 Files and Type Defines
	----------------------------------------------------------------------------**/
	#include "adaptive.h"
	#include "emalloc.h"
	#include "freelist.h"
	#include "globals.h"
	#include "classify.h"

	#ifdef __UNIX__
	#include <assert.h>
	#endif
	#include <stdio.h>

	/**----------------------------------------------------------------------------
	Public Code
	----------------------------------------------------------------------------**/
	/---------------------------------------------------------------------------/
	void AddAdaptedClass(ADAPT_TEMPLATES Templates,
	ADAPT_CLASS Class,
	CLASS_ID ClassId) {
	/*
	** Parameters:
	** Templates set of templates to add new class to
	** Class new class to add to templates
	** ClassId class id to associate with new class
	** Globals: none
	** Operation: This routine adds a new adapted class to an existing
	** set of adapted templates.
	** Return: none
	** Exceptions: none
	** History: Thu Mar 14 13:06:09 1991, DSJ, Created.
	*/
	INT_CLASS IntClass;

	assert (Templates != NULL);
	assert (Class != NULL);
	assert (LegalClassId (ClassId));
	assert (UnusedClassIdIn (Templates->Templates, ClassId));
	assert (Class->NumPermConfigs == 0);

	IntClass = NewIntClass (1, 1);
	AddIntClass (Templates->Templates, ClassId, IntClass);

	assert (Templates->Class[ClassId] == NULL);
	Templates->Class[ClassId] = Class;

	} /* AddAdaptedClass */


	/---------------------------------------------------------------------------/
	void FreeTempConfig(TEMP_CONFIG Config) {
	/*
	** Parameters:
	** Config config to be freed
	** Globals: none
	** Operation: This routine frees all memory consumed by a temporary
	** configuration.
	** Return: none
	** Exceptions: none
	** History: Thu Mar 14 13:34:23 1991, DSJ, Created.
	*/
	assert (Config != NULL);

	destroy_nodes (Config->ContextsSeen, memfree);
	FreeBitVector (Config->Protos);
	free_struct (Config, sizeof (TEMP_CONFIG_STRUCT), "TEMP_CONFIG_STRUCT");

	} /* FreeTempConfig */


	/---------------------------------------------------------------------------/
	void FreeTempProto(void *arg) {
	PROTO proto = (PROTO) arg;

	free_struct (proto, sizeof (TEMP_PROTO_STRUCT), "TEMP_PROTO_STRUCT");
	}


	/---------------------------------------------------------------------------/
	ADAPT_CLASS NewAdaptedClass() {
	/*
	** Parameters: none
	** Globals: none
	** Operation: This operation allocates and initializes a new adapted
	** class data structure and returns a ptr to it.
	** Return: Ptr to new class data structure.
	** Exceptions: none
	** History: Thu Mar 14 12:58:13 1991, DSJ, Created.
	*/
	ADAPT_CLASS Class;
	int i;

	Class = (ADAPT_CLASS) Emalloc (sizeof (ADAPT_CLASS_STRUCT));
	Class->NumPermConfigs = 0;
	Class->TempProtos = NIL;

	Class->PermProtos = NewBitVector (MAX_NUM_PROTOS);
	Class->PermConfigs = NewBitVector (MAX_NUM_CONFIGS);
	zero_all_bits (Class->PermProtos, WordsInVectorOfSize (MAX_NUM_PROTOS));
	zero_all_bits (Class->PermConfigs, WordsInVectorOfSize (MAX_NUM_CONFIGS));

	for (i = 0; i < MAX_NUM_CONFIGS; i++)
	TempConfigFor (Class, i) = NULL;

	return (Class);

	} /* NewAdaptedClass */


	/-------------------------------------------------------------------------/
	void free_adapted_class(ADAPT_CLASS adapt_class) {
	int i;

	for (i = 0; i < MAX_NUM_CONFIGS; i++) {
	if (ConfigIsPermanent (adapt_class, i)
	&& PermConfigFor (adapt_class, i) != NULL)
	Efree (PermConfigFor (adapt_class, i));
	else if (!ConfigIsPermanent (adapt_class, i)
	&& TempConfigFor (adapt_class, i) != NULL)
	FreeTempConfig (TempConfigFor (adapt_class, i));
	}
	FreeBitVector (adapt_class->PermProtos);
	FreeBitVector (adapt_class->PermConfigs);
	destroy_nodes (adapt_class->TempProtos, FreeTempProto);
	Efree(adapt_class);
	}


	/---------------------------------------------------------------------------/
	namespace tesseract {
	ADAPT_TEMPLATES Classify::NewAdaptedTemplates(bool InitFromUnicharset) {
	/*
	** Parameters:
	** PopulateFromUnicharset if true, add an empty class for
	** each char in unicharset to the
	** newly created templates
	** Globals: none
	** Operation: Allocates memory for adapted tempates.
	** Return: Ptr to new adapted templates.
	** Exceptions: none
	** History: Fri Mar 8 10:15:28 1991, DSJ, Created.
	*/
	ADAPT_TEMPLATES Templates;
	int i;

	Templates = (ADAPT_TEMPLATES) Emalloc (sizeof (ADAPT_TEMPLATES_STRUCT));

	Templates->Templates = NewIntTemplates ();
	Templates->NumPermClasses = 0;
	Templates->NumNonEmptyClasses = 0;

	/* Insert an empty class for each unichar id in unicharset */
	for (i = 0; i < MAX_NUM_CLASSES; i++) {
	Templates->Class[i] = NULL;
	if (InitFromUnicharset && i < unicharset.size()) {
	AddAdaptedClass(Templates, NewAdaptedClass(), i);
	}
	}

	return (Templates);

	} /* NewAdaptedTemplates */
	} // namespace tesseract

	/----------------------------------------------------------------------------/
	void free_adapted_templates(ADAPT_TEMPLATES templates) {

	if (templates != NULL) {
	int i;
	for (i = 0; i < NumClassesIn (templates->Templates); i++)
	free_adapted_class (templates->Class[i]);
	free_int_templates (templates->Templates);
	Efree(templates);
	}
	}


	/---------------------------------------------------------------------------/
	TEMP_CONFIG NewTempConfig(int MaxProtoId) {
	/*
	** Parameters:
	** MaxProtoId max id of any proto in new config
	** Globals: none
	** Operation: This routine allocates and returns a new temporary
	** config.
	** Return: Ptr to new temp config.
	** Exceptions: none
	** History: Thu Mar 14 13:28:21 1991, DSJ, Created.
	*/
	TEMP_CONFIG Config;
	int NumProtos = MaxProtoId + 1;

	Config =
	(TEMP_CONFIG) alloc_struct (sizeof (TEMP_CONFIG_STRUCT),
	"TEMP_CONFIG_STRUCT");
	Config->Protos = NewBitVector (NumProtos);

	Config->NumTimesSeen = 1;
	Config->MaxProtoId = MaxProtoId;
	Config->ProtoVectorSize = WordsInVectorOfSize (NumProtos);
	Config->ContextsSeen = NIL;
	zero_all_bits (Config->Protos, Config->ProtoVectorSize);

	return (Config);

	} /* NewTempConfig */


	/---------------------------------------------------------------------------/
	TEMP_PROTO NewTempProto() {
	/*
	** Parameters: none
	** Globals: none
	** Operation: This routine allocates and returns a new temporary proto.
	** Return: Ptr to new temporary proto.
	** Exceptions: none
	** History: Thu Mar 14 13:31:31 1991, DSJ, Created.
	*/
	return ((TEMP_PROTO)
	alloc_struct (sizeof (TEMP_PROTO_STRUCT), "TEMP_PROTO_STRUCT"));
	} /* NewTempProto */


	/---------------------------------------------------------------------------/
	namespace tesseract {
	void Classify::PrintAdaptedTemplates(FILE *File, ADAPT_TEMPLATES Templates) {
	/*
	** Parameters:
	** File open text file to print Templates to
	** Templates adapted templates to print to File
	** Globals: none
	** Operation: This routine prints a summary of the adapted templates
	** in Templates to File.
	** Return: none
	** Exceptions: none
	** History: Wed Mar 20 13:35:29 1991, DSJ, Created.
	*/
	int i;
	INT_CLASS IClass;
	ADAPT_CLASS AClass;

	#ifndef SECURE_NAMES
	fprintf (File, "\n\nSUMMARY OF ADAPTED TEMPLATES:\n\n");
	fprintf (File, "Num classes = %d; Num permanent classes = %d\n\n",
	NumNonEmptyClassesIn (Templates), Templates->NumPermClasses);
	fprintf (File, " Id NC NPC NP NPP\n");
	fprintf (File, "------------------------\n");

	for (i = 0; i < NumClassesIn (Templates->Templates); i++) {
	IClass = ClassForClassId (Templates->Templates, i);
	AClass = Templates->Class[i];
	if (!IsEmptyAdaptedClass (AClass)) {
	fprintf (File, "%5d %s %3d %3d %3d %3d\n",
	i, unicharset.id_to_unichar(i), NumIntConfigsIn (IClass),
	AClass->NumPermConfigs, NumIntProtosIn (IClass),
	NumIntProtosIn (IClass) - count (AClass->TempProtos));
	}
	}
	#endif
	fprintf (File, "\n");

	} /* PrintAdaptedTemplates */
	} // namespace tesseract


	/---------------------------------------------------------------------------/
	ADAPT_CLASS ReadAdaptedClass(FILE *File) {
	/*
	** Parameters:
	** File open file to read adapted class from
	** Globals: none
	** Operation: Read an adapted class description from File and return
	** a ptr to the adapted class.
	** Return: Ptr to new adapted class.
	** Exceptions: none
	** History: Tue Mar 19 14:11:01 1991, DSJ, Created.
	*/
	int NumTempProtos;
	int NumConfigs;
	int i;
	ADAPT_CLASS Class;
	TEMP_PROTO TempProto;

	/* first read high level adapted class structure */
	Class = (ADAPT_CLASS) Emalloc (sizeof (ADAPT_CLASS_STRUCT));
	fread ((char *) Class, sizeof (ADAPT_CLASS_STRUCT), 1, File);

	/* then read in the definitions of the permanent protos and configs */
	Class->PermProtos = NewBitVector (MAX_NUM_PROTOS);
	Class->PermConfigs = NewBitVector (MAX_NUM_CONFIGS);
	fread ((char *) Class->PermProtos, sizeof (uinT32),
	WordsInVectorOfSize (MAX_NUM_PROTOS), File);
	fread ((char *) Class->PermConfigs, sizeof (uinT32),
	WordsInVectorOfSize (MAX_NUM_CONFIGS), File);

	/* then read in the list of temporary protos */
	fread ((char *) &NumTempProtos, sizeof (int), 1, File);
	Class->TempProtos = NIL;
	for (i = 0; i < NumTempProtos; i++) {
	TempProto =
	(TEMP_PROTO) alloc_struct (sizeof (TEMP_PROTO_STRUCT),
	"TEMP_PROTO_STRUCT");
	fread ((char *) TempProto, sizeof (TEMP_PROTO_STRUCT), 1, File);
	Class->TempProtos = push_last (Class->TempProtos, TempProto);
	}

	/* then read in the adapted configs */
	fread ((char *) &NumConfigs, sizeof (int), 1, File);
	for (i = 0; i < NumConfigs; i++)
	if (test_bit (Class->PermConfigs, i))
	Class->Config[i].Perm = ReadPermConfig (File);
	else
	Class->Config[i].Temp = ReadTempConfig (File);

	return (Class);

	} /* ReadAdaptedClass */


	/---------------------------------------------------------------------------/
	namespace tesseract {
	ADAPT_TEMPLATES Classify::ReadAdaptedTemplates(FILE *File) {
	/*
	** Parameters:
	** File open text file to read adapted templates from
	** Globals: none
	** Operation: Read a set of adapted templates from File and return
	** a ptr to the templates.
	** Return: Ptr to adapted templates read from File.
	** Exceptions: none
	** History: Mon Mar 18 15:18:10 1991, DSJ, Created.
	*/
	int i;
	ADAPT_TEMPLATES Templates;

	/* first read the high level adaptive template struct */
	Templates = (ADAPT_TEMPLATES) Emalloc (sizeof (ADAPT_TEMPLATES_STRUCT));
	fread ((char *) Templates, sizeof (ADAPT_TEMPLATES_STRUCT), 1, File);

	/* then read in the basic integer templates */
	Templates->Templates = ReadIntTemplates (File);

	/* then read in the adaptive info for each class */
	for (i = 0; i < NumClassesIn (Templates->Templates); i++) {
	Templates->Class[i] = ReadAdaptedClass (File);
	}
	return (Templates);

	} /* ReadAdaptedTemplates */
	} // namespace tesseract


	/---------------------------------------------------------------------------/
	PERM_CONFIG ReadPermConfig(FILE *File) {
	/*
	** Parameters:
	** File open file to read permanent config from
	** Globals: none
	** Operation: Read a permanent configuration description from File
	** and return a ptr to it.
	** Return: Ptr to new permanent configuration description.
	** Exceptions: none
	** History: Tue Mar 19 14:25:26 1991, DSJ, Created.
	*/
	PERM_CONFIG Config;
	uinT8 NumAmbigs;

	fread ((char *) &NumAmbigs, sizeof (uinT8), 1, File);
	Config = (PERM_CONFIG) Emalloc (sizeof (UNICHAR_ID) * (NumAmbigs + 1));
	fread (Config, sizeof (UNICHAR_ID), NumAmbigs, File);
	Config[NumAmbigs] = -1;

	return (Config);

	} /* ReadPermConfig */


	/---------------------------------------------------------------------------/
	TEMP_CONFIG ReadTempConfig(FILE *File) {
	/*
	** Parameters:
	** File open file to read temporary config from
	** Globals: none
	** Operation: Read a temporary configuration description from File
	** and return a ptr to it.
	** Return: Ptr to new temporary configuration description.
	** Exceptions: none
	** History: Tue Mar 19 14:29:59 1991, DSJ, Created.
	*/
	TEMP_CONFIG Config;

	Config =
	(TEMP_CONFIG) alloc_struct (sizeof (TEMP_CONFIG_STRUCT),
	"TEMP_CONFIG_STRUCT");
	fread ((char *) Config, sizeof (TEMP_CONFIG_STRUCT), 1, File);

	Config->Protos = NewBitVector (Config->ProtoVectorSize * BITSINLONG);
	fread ((char *) Config->Protos, sizeof (uinT32),
	Config->ProtoVectorSize, File);

	return (Config);

	} /* ReadTempConfig */


	/---------------------------------------------------------------------------/
	void WriteAdaptedClass(FILE *File, ADAPT_CLASS Class, int NumConfigs) {
	/*
	** Parameters:
	** File open file to write Class to
	** Class adapted class to write to File
	** NumConfigs number of configs in Class
	** Globals: none
	** Operation: This routine writes a binary representation of Class
	** to File.
	** Return: none
	** Exceptions: none
	** History: Tue Mar 19 13:33:51 1991, DSJ, Created.
	*/
	int NumTempProtos;
	LIST TempProtos;
	int i;

	/* first write high level adapted class structure */
	fwrite ((char *) Class, sizeof (ADAPT_CLASS_STRUCT), 1, File);

	/* then write out the definitions of the permanent protos and configs */
	fwrite ((char *) Class->PermProtos, sizeof (uinT32),
	WordsInVectorOfSize (MAX_NUM_PROTOS), File);
	fwrite ((char *) Class->PermConfigs, sizeof (uinT32),
	WordsInVectorOfSize (MAX_NUM_CONFIGS), File);

	/* then write out the list of temporary protos */
	NumTempProtos = count (Class->TempProtos);
	fwrite ((char *) &NumTempProtos, sizeof (int), 1, File);
	TempProtos = Class->TempProtos;
	iterate (TempProtos) {
	void* proto = first_node(TempProtos);
	fwrite ((char *) proto, sizeof (TEMP_PROTO_STRUCT), 1, File);
	}

	/* then write out the adapted configs */
	fwrite ((char *) &NumConfigs, sizeof (int), 1, File);
	for (i = 0; i < NumConfigs; i++)
	if (test_bit (Class->PermConfigs, i))
	WritePermConfig (File, Class->Config[i].Perm);
	else
	WriteTempConfig (File, Class->Config[i].Temp);

	} /* WriteAdaptedClass */


	/---------------------------------------------------------------------------/
	namespace tesseract {
	void Classify::WriteAdaptedTemplates(FILE *File, ADAPT_TEMPLATES Templates) {
	/*
	** Parameters:
	** File open text file to write Templates to
	** Templates set of adapted templates to write to File
	** Globals: none
	** Operation: This routine saves Templates to File in a binary format.
	** Return: none
	** Exceptions: none
	** History: Mon Mar 18 15:07:32 1991, DSJ, Created.
	*/
	int i;

	/* first write the high level adaptive template struct */
	fwrite ((char *) Templates, sizeof (ADAPT_TEMPLATES_STRUCT), 1, File);

	/* then write out the basic integer templates */
	WriteIntTemplates (File, Templates->Templates, unicharset);

	/* then write out the adaptive info for each class */
	for (i = 0; i < NumClassesIn (Templates->Templates); i++) {
	WriteAdaptedClass (File, Templates->Class[i],
	NumIntConfigsIn (ClassForClassId
	(Templates->Templates, i)));
	}
	} /* WriteAdaptedTemplates */
	} // namespace tesseract


	/---------------------------------------------------------------------------/
	void WritePermConfig(FILE *File, PERM_CONFIG Config) {
	/*
	** Parameters:
	** File open file to write Config to
	** Config permanent config to write to File
	** Globals: none
	** Operation: This routine writes a binary representation of a
	** permanent configuration to File.
	** Return: none
	** Exceptions: none
	** History: Tue Mar 19 13:55:44 1991, DSJ, Created.
	*/
	uinT8 NumAmbigs = 0;

	assert (Config != NULL);
	while (Config[NumAmbigs] > 0)
	++NumAmbigs;

	fwrite ((char *) &NumAmbigs, sizeof (uinT8), 1, File);
	fwrite (Config, sizeof (UNICHAR_ID), NumAmbigs, File);

	} /* WritePermConfig */


	/---------------------------------------------------------------------------/
	void WriteTempConfig(FILE *File, TEMP_CONFIG Config) {
	/*
	** Parameters:
	** File open file to write Config to
	** Config temporary config to write to File
	** Globals: none
	** Operation: This routine writes a binary representation of a
	** temporary configuration to File.
	** Return: none
	** Exceptions: none
	** History: Tue Mar 19 14:00:28 1991, DSJ, Created.
	*/
	assert (Config != NULL);
	/* contexts not yet implemented */
	assert (Config->ContextsSeen == NULL);

	fwrite ((char *) Config, sizeof (TEMP_CONFIG_STRUCT), 1, File);
	fwrite ((char *) Config->Protos, sizeof (uinT32),
	Config->ProtoVectorSize, File);

	} /* WriteTempConfig */