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

 /******************************************************************************
  **	Filename:    normmatch.c
  **	Purpose:     Simple matcher based on character normalization features.
  **	Author:      Dan Johnson
  **	History:     Wed Dec 19 16:18:06 1990, 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 "normmatch.h"

 #include <stdio.h>
 #include <math.h>

 #include "classify.h"
 #include "clusttool.h"
 #include "const.h"
 #include "efio.h"
 #include "emalloc.h"
 #include "globals.h"
 #include "helpers.h"
 #include "normfeat.h"
 #include "scanutils.h"
 #include "unicharset.h"
 #include "varable.h"

 struct NORM_PROTOS
 {
   int NumParams;
   PARAM_DESC *ParamDesc;
   LIST* Protos;
   int NumProtos;
 };

 /**----------------------------------------------------------------------------
           Private Function Prototypes
 ----------------------------------------------------------------------------**/
 FLOAT32 NormEvidenceOf(register FLOAT32 NormAdj);

 void PrintNormMatch(FILE *File,
                     int NumParams,
                     PROTOTYPE *Proto,
                     FEATURE Feature);

 NORM_PROTOS *ReadNormProtos(FILE *File);

 /**----------------------------------------------------------------------------
         Variables
 ----------------------------------------------------------------------------**/

 /* control knobs used to control the normalization adjustment process */
 double_VAR(classify_norm_adj_midpoint, 32.0, "Norm adjust midpoint ...");
 double_VAR(classify_norm_adj_curl, 2.0, "Norm adjust curl ...");

 /**----------------------------------------------------------------------------
               Public Code
 ----------------------------------------------------------------------------**/
 /*---------------------------------------------------------------------------*/
 namespace tesseract {
 FLOAT32 Classify::ComputeNormMatch(CLASS_ID ClassId, FEATURE Feature,
                                    BOOL8 DebugMatch) {
 /*
  **	Parameters:
  **		ClassId		id of class to match against
  **		Feature		character normalization feature
  **		DebugMatch	controls dump of debug info
  **	Globals:
  **		NormProtos	character normalization prototypes
  **	Operation: This routine compares Features against each character
  **		normalization proto for ClassId and returns the match
  **		rating of the best match.
  **	Return: Best match rating for Feature against protos of ClassId.
  **	Exceptions: none
  **	History: Wed Dec 19 16:56:12 1990, DSJ, Created.
  */
   LIST Protos;
   FLOAT32 BestMatch;
   FLOAT32 Match;
   FLOAT32 Delta;
   PROTOTYPE *Proto;
   int ProtoId;

   /* handle requests for classification as noise */
   if (ClassId == NO_CLASS) {
     /* kludge - clean up constants and make into control knobs later */
     Match = (Feature->Params[CharNormLength] *
       Feature->Params[CharNormLength] * 500.0 +
       Feature->Params[CharNormRx] *
       Feature->Params[CharNormRx] * 8000.0 +
       Feature->Params[CharNormRy] *
       Feature->Params[CharNormRy] * 8000.0);
     return (1.0 - NormEvidenceOf (Match));
   }

   BestMatch = MAX_FLOAT32;
   Protos = NormProtos->Protos[ClassId];

   if (DebugMatch) {
     cprintf ("\nFeature = ");
     WriteFeature(stdout, Feature);
   }

   ProtoId = 0;
   iterate(Protos) {
     Proto = (PROTOTYPE *) first_node (Protos);
     Delta = Feature->Params[CharNormY] - Proto->Mean[CharNormY];
     Match = Delta * Delta * Proto->Weight.Elliptical[CharNormY];
     Delta = Feature->Params[CharNormRx] - Proto->Mean[CharNormRx];
     Match += Delta * Delta * Proto->Weight.Elliptical[CharNormRx];

     if (Match < BestMatch)
       BestMatch = Match;

     if (DebugMatch) {
       cprintf ("Proto %1d = ", ProtoId);
       WriteNFloats (stdout, NormProtos->NumParams, Proto->Mean);
       cprintf ("      var = ");
       WriteNFloats (stdout, NormProtos->NumParams,
         Proto->Variance.Elliptical);
       cprintf ("    match = ");
       PrintNormMatch (stdout, NormProtos->NumParams, Proto, Feature);
     }
     ProtoId++;
   }
   return (1.0 - NormEvidenceOf (BestMatch));
 }                                /* ComputeNormMatch */

 void Classify::FreeNormProtos() {
   if (NormProtos != NULL) {
     for (int i = 0; i < NormProtos->NumProtos; i++)
       FreeProtoList(&NormProtos->Protos[i]);
     Efree(NormProtos->Protos);
     Efree(NormProtos->ParamDesc);
     Efree(NormProtos);
     NormProtos = NULL;
   }
 }
 }  // namespace tesseract

 /**----------------------------------------------------------------------------
               Private Code
 ----------------------------------------------------------------------------**/
 /**********************************************************************
  * NormEvidenceOf
  *
  * Return the new type of evidence number corresponding to this
  * normalization adjustment.  The equation that represents the transform is:
  *       1 / (1 + (NormAdj / midpoint) ^ curl)
  **********************************************************************/
 FLOAT32 NormEvidenceOf(register FLOAT32 NormAdj) {
   NormAdj /= classify_norm_adj_midpoint;

   if (classify_norm_adj_curl == 3)
     NormAdj = NormAdj * NormAdj * NormAdj;
   else if (classify_norm_adj_curl == 2)
     NormAdj = NormAdj * NormAdj;
   else
     NormAdj = pow(static_cast<double>(NormAdj), classify_norm_adj_curl);
   return (1.0 / (1.0 + NormAdj));
 }


 /*---------------------------------------------------------------------------*/
 void PrintNormMatch(FILE *File,
                     int NumParams,
                     PROTOTYPE *Proto,
                     FEATURE Feature) {
 /*
  **	Parameters:
  **		File		open text file to dump match debug info to
  **		NumParams	# of parameters in proto and feature
  **		Proto[]		array of prototype parameters
  **		Feature[]	array of feature parameters
  **	Globals: none
  **	Operation: This routine dumps out detailed normalization match info.
  **	Return: none
  **	Exceptions: none
  **	History: Wed Jan  2 09:49:35 1991, DSJ, Created.
  */
   int i;
   FLOAT32 ParamMatch;
   FLOAT32 TotalMatch;

   for (i = 0, TotalMatch = 0.0; i < NumParams; i++) {
     ParamMatch = (Feature->Params[i] - Mean(Proto, i)) /
       StandardDeviation(Proto, i);

     fprintf (File, " %6.1f", ParamMatch);

     if (i == CharNormY || i == CharNormRx)
       TotalMatch += ParamMatch * ParamMatch;
   }
   fprintf (File, " --> %6.1f (%4.2f)\n",
     TotalMatch, NormEvidenceOf (TotalMatch));

 }                                /* PrintNormMatch */


 /*---------------------------------------------------------------------------*/
 namespace tesseract {
 NORM_PROTOS *Classify::ReadNormProtos(FILE *File, inT64 end_offset) {
 /*
  **	Parameters:
  **		File	open text file to read normalization protos from
  **	Globals: none
  **	Operation: This routine allocates a new data structure to hold
  **		a set of character normalization protos.  It then fills in
  **		the data structure by reading from the specified File.
  **	Return: Character normalization protos.
  **	Exceptions: none
  **	History: Wed Dec 19 16:38:49 1990, DSJ, Created.
  */
   NORM_PROTOS *NormProtos;
   int i;
   char unichar[UNICHAR_LEN + 1];
   UNICHAR_ID unichar_id;
   LIST Protos;
   int NumProtos;

   /* allocate and initialization data structure */
   NormProtos = (NORM_PROTOS *) Emalloc (sizeof (NORM_PROTOS));
   NormProtos->NumProtos = unicharset.size();
   NormProtos->Protos = (LIST *) Emalloc (NormProtos->NumProtos * sizeof(LIST));
   for (i = 0; i < NormProtos->NumProtos; i++)
     NormProtos->Protos[i] = NIL;

   /* read file header and save in data structure */
   NormProtos->NumParams = ReadSampleSize (File);
   NormProtos->ParamDesc = ReadParamDesc (File, NormProtos->NumParams);

   /* read protos for each class into a separate list */
   while ((end_offset < 0 || ftell(File) < end_offset) &&
          fscanf(File, "%s %d", unichar, &NumProtos) == 2) {
     if (unicharset.contains_unichar(unichar)) {
       unichar_id = unicharset.unichar_to_id(unichar);
       Protos = NormProtos->Protos[unichar_id];
       for (i = 0; i < NumProtos; i++)
         Protos =
             push_last (Protos, ReadPrototype (File, NormProtos->NumParams));
       NormProtos->Protos[unichar_id] = Protos;
     } else
       cprintf("Error: unichar %s in normproto file is not in unichar set.\n");
     SkipNewline(File);
   }
   return (NormProtos);
 }                                /* ReadNormProtos */
 }  // namespace tesseract
	/******************************************************************************
	** Filename: normmatch.c
	** Purpose: Simple matcher based on character normalization features.
	** Author: Dan Johnson
	** History: Wed Dec 19 16:18:06 1990, 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 "normmatch.h"

	#include <stdio.h>
	#include <math.h>

	#include "classify.h"
	#include "clusttool.h"
	#include "const.h"
	#include "efio.h"
	#include "emalloc.h"
	#include "globals.h"
	#include "helpers.h"
	#include "normfeat.h"
	#include "scanutils.h"
	#include "unicharset.h"
	#include "varable.h"

	struct NORM_PROTOS
	{
	int NumParams;
	PARAM_DESC *ParamDesc;
	LIST* Protos;
	int NumProtos;
	};

	/**----------------------------------------------------------------------------
	Private Function Prototypes
	----------------------------------------------------------------------------**/
	FLOAT32 NormEvidenceOf(register FLOAT32 NormAdj);

	void PrintNormMatch(FILE *File,
	int NumParams,
	PROTOTYPE *Proto,
	FEATURE Feature);

	NORM_PROTOS ReadNormProtos(FILE File);

	/**----------------------------------------------------------------------------
	Variables
	----------------------------------------------------------------------------**/

	/* control knobs used to control the normalization adjustment process */
	double_VAR(classify_norm_adj_midpoint, 32.0, "Norm adjust midpoint ...");
	double_VAR(classify_norm_adj_curl, 2.0, "Norm adjust curl ...");

	/**----------------------------------------------------------------------------
	Public Code
	----------------------------------------------------------------------------**/
	/---------------------------------------------------------------------------/
	namespace tesseract {
	FLOAT32 Classify::ComputeNormMatch(CLASS_ID ClassId, FEATURE Feature,
	BOOL8 DebugMatch) {
	/*
	** Parameters:
	** ClassId id of class to match against
	** Feature character normalization feature
	** DebugMatch controls dump of debug info
	** Globals:
	** NormProtos character normalization prototypes
	** Operation: This routine compares Features against each character
	** normalization proto for ClassId and returns the match
	** rating of the best match.
	** Return: Best match rating for Feature against protos of ClassId.
	** Exceptions: none
	** History: Wed Dec 19 16:56:12 1990, DSJ, Created.
	*/
	LIST Protos;
	FLOAT32 BestMatch;
	FLOAT32 Match;
	FLOAT32 Delta;
	PROTOTYPE *Proto;
	int ProtoId;

	/* handle requests for classification as noise */
	if (ClassId == NO_CLASS) {
	/* kludge - clean up constants and make into control knobs later */
	Match = (Feature->Params[CharNormLength] *
	Feature->Params[CharNormLength] * 500.0 +
	Feature->Params[CharNormRx] *
	Feature->Params[CharNormRx] * 8000.0 +
	Feature->Params[CharNormRy] *
	Feature->Params[CharNormRy] * 8000.0);
	return (1.0 - NormEvidenceOf (Match));
	}

	BestMatch = MAX_FLOAT32;
	Protos = NormProtos->Protos[ClassId];

	if (DebugMatch) {
	cprintf ("\nFeature = ");
	WriteFeature(stdout, Feature);
	}

	ProtoId = 0;
	iterate(Protos) {
	Proto = (PROTOTYPE *) first_node (Protos);
	Delta = Feature->Params[CharNormY] - Proto->Mean[CharNormY];
	Match = Delta * Delta * Proto->Weight.Elliptical[CharNormY];
	Delta = Feature->Params[CharNormRx] - Proto->Mean[CharNormRx];
	Match += Delta * Delta * Proto->Weight.Elliptical[CharNormRx];

	if (Match < BestMatch)
	BestMatch = Match;

	if (DebugMatch) {
	cprintf ("Proto %1d = ", ProtoId);
	WriteNFloats (stdout, NormProtos->NumParams, Proto->Mean);
	cprintf (" var = ");
	WriteNFloats (stdout, NormProtos->NumParams,
	Proto->Variance.Elliptical);
	cprintf (" match = ");
	PrintNormMatch (stdout, NormProtos->NumParams, Proto, Feature);
	}
	ProtoId++;
	}
	return (1.0 - NormEvidenceOf (BestMatch));
	} /* ComputeNormMatch */

	void Classify::FreeNormProtos() {
	if (NormProtos != NULL) {
	for (int i = 0; i < NormProtos->NumProtos; i++)
	FreeProtoList(&NormProtos->Protos[i]);
	Efree(NormProtos->Protos);
	Efree(NormProtos->ParamDesc);
	Efree(NormProtos);
	NormProtos = NULL;
	}
	}
	} // namespace tesseract

	/**----------------------------------------------------------------------------
	Private Code
	----------------------------------------------------------------------------**/
	/**********************************************************************
	* NormEvidenceOf
	*
	* Return the new type of evidence number corresponding to this
	* normalization adjustment. The equation that represents the transform is:
	* 1 / (1 + (NormAdj / midpoint) ^ curl)
	**********************************************************************/
	FLOAT32 NormEvidenceOf(register FLOAT32 NormAdj) {
	NormAdj /= classify_norm_adj_midpoint;

	if (classify_norm_adj_curl == 3)
	NormAdj = NormAdj * NormAdj * NormAdj;
	else if (classify_norm_adj_curl == 2)
	NormAdj = NormAdj * NormAdj;
	else
	NormAdj = pow(static_cast<double>(NormAdj), classify_norm_adj_curl);
	return (1.0 / (1.0 + NormAdj));
	}


	/---------------------------------------------------------------------------/
	void PrintNormMatch(FILE *File,
	int NumParams,
	PROTOTYPE *Proto,
	FEATURE Feature) {
	/*
	** Parameters:
	** File open text file to dump match debug info to
	** NumParams # of parameters in proto and feature
	** Proto[] array of prototype parameters
	** Feature[] array of feature parameters
	** Globals: none
	** Operation: This routine dumps out detailed normalization match info.
	** Return: none
	** Exceptions: none
	** History: Wed Jan 2 09:49:35 1991, DSJ, Created.
	*/
	int i;
	FLOAT32 ParamMatch;
	FLOAT32 TotalMatch;

	for (i = 0, TotalMatch = 0.0; i < NumParams; i++) {
	ParamMatch = (Feature->Params[i] - Mean(Proto, i)) /
	StandardDeviation(Proto, i);

	fprintf (File, " %6.1f", ParamMatch);

	if (i == CharNormY \|\| i == CharNormRx)
	TotalMatch += ParamMatch * ParamMatch;
	}
	fprintf (File, " --> %6.1f (%4.2f)\n",
	TotalMatch, NormEvidenceOf (TotalMatch));

	} /* PrintNormMatch */


	/---------------------------------------------------------------------------/
	namespace tesseract {
	NORM_PROTOS Classify::ReadNormProtos(FILE File, inT64 end_offset) {
	/*
	** Parameters:
	** File open text file to read normalization protos from
	** Globals: none
	** Operation: This routine allocates a new data structure to hold
	** a set of character normalization protos. It then fills in
	** the data structure by reading from the specified File.
	** Return: Character normalization protos.
	** Exceptions: none
	** History: Wed Dec 19 16:38:49 1990, DSJ, Created.
	*/
	NORM_PROTOS *NormProtos;
	int i;
	char unichar[UNICHAR_LEN + 1];
	UNICHAR_ID unichar_id;
	LIST Protos;
	int NumProtos;

	/* allocate and initialization data structure */
	NormProtos = (NORM_PROTOS *) Emalloc (sizeof (NORM_PROTOS));
	NormProtos->NumProtos = unicharset.size();
	NormProtos->Protos = (LIST ) Emalloc (NormProtos->NumProtos sizeof(LIST));
	for (i = 0; i < NormProtos->NumProtos; i++)
	NormProtos->Protos[i] = NIL;

	/* read file header and save in data structure */
	NormProtos->NumParams = ReadSampleSize (File);
	NormProtos->ParamDesc = ReadParamDesc (File, NormProtos->NumParams);

	/* read protos for each class into a separate list */
	while ((end_offset < 0 \|\| ftell(File) < end_offset) &&
	fscanf(File, "%s %d", unichar, &NumProtos) == 2) {
	if (unicharset.contains_unichar(unichar)) {
	unichar_id = unicharset.unichar_to_id(unichar);
	Protos = NormProtos->Protos[unichar_id];
	for (i = 0; i < NumProtos; i++)
	Protos =
	push_last (Protos, ReadPrototype (File, NormProtos->NumParams));
	NormProtos->Protos[unichar_id] = Protos;
	} else
	cprintf("Error: unichar %s in normproto file is not in unichar set.\n");
	SkipNewline(File);
	}
	return (NormProtos);
	} /* ReadNormProtos */
	} // namespace tesseract