/****************************************************************************** ** Filename: intproto.h ** Purpose: Definition of data structures for integer protos. ** Author: Dan Johnson ** History: Thu Feb 7 12:58:45 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. ******************************************************************************/ #ifndef INTPROTO_H #define INTPROTO_H /**---------------------------------------------------------------------------- Include Files and Type Defines ----------------------------------------------------------------------------**/ #include "genericvector.h" #include "matchdefs.h" #include "mfoutline.h" #include "protos.h" #include "scrollview.h" #include "unicharset.h" class FCOORD; /* define order of params in pruners */ #define PRUNER_X 0 #define PRUNER_Y 1 #define PRUNER_ANGLE 2 /* definition of coordinate system offsets for each table parameter */ #define ANGLE_SHIFT (0.0) #define X_SHIFT (0.5) #define Y_SHIFT (0.5) #define MAX_PROTO_INDEX 24 #define BITS_PER_WERD static_cast(8 * sizeof(uinT32)) /* Script detection: increase this number to 128 */ #define MAX_NUM_CONFIGS 64 #define MAX_NUM_PROTOS 512 #define PROTOS_PER_PROTO_SET 64 #define MAX_NUM_PROTO_SETS (MAX_NUM_PROTOS / PROTOS_PER_PROTO_SET) #define NUM_PP_PARAMS 3 #define NUM_PP_BUCKETS 64 #define NUM_CP_BUCKETS 24 #define CLASSES_PER_CP 32 #define NUM_BITS_PER_CLASS 2 #define CLASS_PRUNER_CLASS_MASK (~(~0u << NUM_BITS_PER_CLASS)) #define CLASSES_PER_CP_WERD (CLASSES_PER_CP / NUM_BITS_PER_CLASS) #define PROTOS_PER_PP_WERD BITS_PER_WERD #define BITS_PER_CP_VECTOR (CLASSES_PER_CP * NUM_BITS_PER_CLASS) #define MAX_NUM_CLASS_PRUNERS ((MAX_NUM_CLASSES + CLASSES_PER_CP - 1) / \ CLASSES_PER_CP) #define WERDS_PER_CP_VECTOR (BITS_PER_CP_VECTOR / BITS_PER_WERD) #define WERDS_PER_PP_VECTOR ((PROTOS_PER_PROTO_SET+BITS_PER_WERD-1)/ \ BITS_PER_WERD) #define WERDS_PER_PP (NUM_PP_PARAMS * NUM_PP_BUCKETS * \ WERDS_PER_PP_VECTOR) #define WERDS_PER_CP (NUM_CP_BUCKETS * NUM_CP_BUCKETS * \ NUM_CP_BUCKETS * WERDS_PER_CP_VECTOR) #define WERDS_PER_CONFIG_VEC ((MAX_NUM_CONFIGS + BITS_PER_WERD - 1) / \ BITS_PER_WERD) /* The first 3 dimensions of the CLASS_PRUNER_STRUCT are the * 3 axes of the quantized feature space. * The position of the the bits recorded for each class in the * 4th dimension is determined by using CPrunerWordIndexFor(c), * where c is the corresponding class id. */ struct CLASS_PRUNER_STRUCT { uinT32 p[NUM_CP_BUCKETS][NUM_CP_BUCKETS][NUM_CP_BUCKETS][WERDS_PER_CP_VECTOR]; }; typedef struct { inT8 A; uinT8 B; inT8 C; uinT8 Angle; uinT32 Configs[WERDS_PER_CONFIG_VEC]; } INT_PROTO_STRUCT, *INT_PROTO; typedef uinT32 PROTO_PRUNER[NUM_PP_PARAMS][NUM_PP_BUCKETS][WERDS_PER_PP_VECTOR]; typedef struct { PROTO_PRUNER ProtoPruner; INT_PROTO_STRUCT Protos[PROTOS_PER_PROTO_SET]; } PROTO_SET_STRUCT, *PROTO_SET; typedef uinT32 CONFIG_PRUNER[NUM_PP_PARAMS][NUM_PP_BUCKETS][4]; typedef struct { uinT16 NumProtos; uinT8 NumProtoSets; uinT8 NumConfigs; PROTO_SET ProtoSets[MAX_NUM_PROTO_SETS]; uinT8 *ProtoLengths; uinT16 ConfigLengths[MAX_NUM_CONFIGS]; int font_set_id; // FontSet id, see above } INT_CLASS_STRUCT, *INT_CLASS; typedef struct { int NumClasses; int NumClassPruners; INT_CLASS Class[MAX_NUM_CLASSES]; CLASS_PRUNER_STRUCT* ClassPruners[MAX_NUM_CLASS_PRUNERS]; } INT_TEMPLATES_STRUCT, *INT_TEMPLATES; /* definitions of integer features*/ #define MAX_NUM_INT_FEATURES 512 #define INT_CHAR_NORM_RANGE 256 struct INT_FEATURE_STRUCT { INT_FEATURE_STRUCT() : X(0), Y(0), Theta(0), CP_misses(0) { } // Builds a feature from an FCOORD for position with all the necessary // clipping and rounding. INT_FEATURE_STRUCT(const FCOORD& pos, uinT8 theta); // Builds a feature from ints with all the necessary clipping and casting. INT_FEATURE_STRUCT(int x, int y, int theta); uinT8 X; uinT8 Y; uinT8 Theta; inT8 CP_misses; void print() const { tprintf("(%d,%d):%d\n", X, Y, Theta); } }; typedef INT_FEATURE_STRUCT *INT_FEATURE; typedef INT_FEATURE_STRUCT INT_FEATURE_ARRAY[MAX_NUM_INT_FEATURES]; enum IntmatcherDebugAction { IDA_ADAPTIVE, IDA_STATIC, IDA_SHAPE_INDEX, IDA_BOTH }; /**---------------------------------------------------------------------------- Macros ----------------------------------------------------------------------------**/ #define MaxNumIntProtosIn(C) (C->NumProtoSets * PROTOS_PER_PROTO_SET) #define SetForProto(P) (P / PROTOS_PER_PROTO_SET) #define IndexForProto(P) (P % PROTOS_PER_PROTO_SET) #define ProtoForProtoId(C,P) (&((C->ProtoSets[SetForProto (P)])-> \ Protos [IndexForProto (P)])) #define PPrunerWordIndexFor(I) (((I) % PROTOS_PER_PROTO_SET) / \ PROTOS_PER_PP_WERD) #define PPrunerBitIndexFor(I) ((I) % PROTOS_PER_PP_WERD) #define PPrunerMaskFor(I) (1 << PPrunerBitIndexFor (I)) #define MaxNumClassesIn(T) (T->NumClassPruners * CLASSES_PER_CP) #define LegalClassId(c) ((c) >= 0 && (c) <= MAX_CLASS_ID) #define UnusedClassIdIn(T,c) ((T)->Class[c] == NULL) #define ClassForClassId(T,c) ((T)->Class[c]) #define ClassPrunersFor(T) ((T)->ClassPruner) #define CPrunerIdFor(c) ((c) / CLASSES_PER_CP) #define CPrunerFor(T,c) ((T)->ClassPruners[CPrunerIdFor(c)]) #define CPrunerWordIndexFor(c) (((c) % CLASSES_PER_CP) / CLASSES_PER_CP_WERD) #define CPrunerBitIndexFor(c) (((c) % CLASSES_PER_CP) % CLASSES_PER_CP_WERD) #define CPrunerMaskFor(L,c) (((L)+1) << CPrunerBitIndexFor (c) * NUM_BITS_PER_CLASS) /* DEBUG macros*/ #define PRINT_MATCH_SUMMARY 0x001 #define DISPLAY_FEATURE_MATCHES 0x002 #define DISPLAY_PROTO_MATCHES 0x004 #define PRINT_FEATURE_MATCHES 0x008 #define PRINT_PROTO_MATCHES 0x010 #define CLIP_MATCH_EVIDENCE 0x020 #define MatchDebuggingOn(D) (D) #define PrintMatchSummaryOn(D) ((D) & PRINT_MATCH_SUMMARY) #define DisplayFeatureMatchesOn(D) ((D) & DISPLAY_FEATURE_MATCHES) #define DisplayProtoMatchesOn(D) ((D) & DISPLAY_PROTO_MATCHES) #define PrintFeatureMatchesOn(D) ((D) & PRINT_FEATURE_MATCHES) #define PrintProtoMatchesOn(D) ((D) & PRINT_PROTO_MATCHES) #define ClipMatchEvidenceOn(D) ((D) & CLIP_MATCH_EVIDENCE) /**---------------------------------------------------------------------------- Public Function Prototypes ----------------------------------------------------------------------------**/ void AddIntClass(INT_TEMPLATES Templates, CLASS_ID ClassId, INT_CLASS Class); int AddIntConfig(INT_CLASS Class); int AddIntProto(INT_CLASS Class); void AddProtoToClassPruner(PROTO Proto, CLASS_ID ClassId, INT_TEMPLATES Templates); void AddProtoToProtoPruner(PROTO Proto, int ProtoId, INT_CLASS Class, bool debug); uinT8 Bucket8For(FLOAT32 param, FLOAT32 offset, int num_buckets); uinT16 Bucket16For(FLOAT32 param, FLOAT32 offset, int num_buckets); uinT8 CircBucketFor(FLOAT32 param, FLOAT32 offset, int num_buckets); void UpdateMatchDisplay(); void ConvertConfig(BIT_VECTOR Config, int ConfigId, INT_CLASS Class); void DisplayIntFeature(const INT_FEATURE_STRUCT* Feature, FLOAT32 Evidence); void DisplayIntProto(INT_CLASS Class, PROTO_ID ProtoId, FLOAT32 Evidence); INT_CLASS NewIntClass(int MaxNumProtos, int MaxNumConfigs); INT_TEMPLATES NewIntTemplates(); void free_int_templates(INT_TEMPLATES templates); void ShowMatchDisplay(); namespace tesseract { // Clears the given window and draws the featurespace guides for the // appropriate normalization method. void ClearFeatureSpaceWindow(NORM_METHOD norm_method, ScrollView* window); } // namespace tesseract. /*----------------------------------------------------------------------------*/ #ifndef GRAPHICS_DISABLED void RenderIntFeature(ScrollView *window, const INT_FEATURE_STRUCT* Feature, ScrollView::Color color); void InitIntMatchWindowIfReqd(); void InitProtoDisplayWindowIfReqd(); void InitFeatureDisplayWindowIfReqd(); // Creates a window of the appropriate size for displaying elements // in feature space. ScrollView* CreateFeatureSpaceWindow(const char* name, int xpos, int ypos); #endif // GRAPHICS_DISABLED #endif