/usr/include/ncbi/maputil.h is in libncbi6-dev 6.1.20120620-8.
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* ===========================================================================
*
* PUBLIC DOMAIN NOTICE
* National Center for Biotechnology Information
*
* This software/database is a "United States Government Work" under the
* terms of the United States Copyright Act. It was written as part of
* the author's official duties as a United States Government employee and
* thus cannot be copyrighted. This software/database is freely available
* to the public for use. The National Library of Medicine and the U.S.
* Government have not placed any restriction on its use or reproduction.
*
* Although all reasonable efforts have been taken to ensure the accuracy
* and reliability of the software and data, the NLM and the U.S.
* Government do not and cannot warrant the performance or results that
* may be obtained by using this software or data. The NLM and the U.S.
* Government disclaim all warranties, express or implied, including
* warranties of performance, merchantability or fitness for any particular
* purpose.
*
* Please cite the author in any work or product based on this material.
*
* ===========================================================================
*
* File Name: $RCSfile: maputil.h,v $
*
* Author: Jinghui Zhang
*
* Initial Version Creation Date: 03/21/97
*
* $Revision: 6.9 $
*
* File Description:
* External include file for graphical alignments
*
* $Log: maputil.h,v $
* Revision 6.9 2006/07/13 17:06:38 bollin
* use Uint4 instead of Uint2 for itemID values
* removed unused variables
* resolved compiler warnings
*
* Revision 6.8 2001/06/26 16:42:59 vakatov
* POINT --> BAND_POINT (to avoid conflicts with MS-Win standard headers)
*
* Revision 6.7 1998/07/22 00:02:37 zjing
* move SortValNode from maputil to jzmisc
*
* Revision 6.6 1997/11/14 22:13:41 vakatov
* [WIN32,DLL] Added NLM_EXTERN's
*
* Revision 6.5 1997/10/15 19:56:42 zjing
* change get_align_annot_qual parameter
*
* Revision 6.4 1997/10/10 18:32:42 zjing
* add support to collect OBJ_BIOSEQ_DELTA and functions to improve the alignment overview
*
* Revision 6.3 1997/10/06 14:42:39 zjing
* functions for the overview of blast search results
*
* Revision 6.0 1997/08/25 18:06:37 madden
* Revision changed to 6.0
*
* Revision 5.9 1997/07/23 13:45:29 zjing
* look up for the sequence index map
*
* $Revision: 6.9 $
*
* File Description:
* External include file for graphical alignments
*
* $Log: maputil.h,v $
* Revision 6.9 2006/07/13 17:06:38 bollin
* use Uint4 instead of Uint2 for itemID values
* removed unused variables
* resolved compiler warnings
*
* Revision 6.8 2001/06/26 16:42:59 vakatov
* POINT --> BAND_POINT (to avoid conflicts with MS-Win standard headers)
*
* Revision 6.7 1998/07/22 00:02:37 zjing
* move SortValNode from maputil to jzmisc
*
* Revision 6.6 1997/11/14 22:13:41 vakatov
* [WIN32,DLL] Added NLM_EXTERN's
*
* Revision 6.5 1997/10/15 19:56:42 zjing
* change get_align_annot_qual parameter
*
* Revision 6.4 1997/10/10 18:32:42 zjing
* add support to collect OBJ_BIOSEQ_DELTA and functions to improve the alignment overview
*
* Revision 6.3 1997/10/06 14:42:39 zjing
* functions for the overview of blast search results
*
* Revision 5.8 1997/06/19 18:38:23 vakatov
* [WIN32,MSVC++] Adopted for the "NCBIOBJ.LIB" DLL'ization
*
* Revision 5.7 1997/03/21 19:47:16 shavirin
* Added NCBI header started logging and added protection for usage
* it with C++ compiler
*
*
* ==========================================================================
*/
#ifndef _MAPUTIL_
#define _MAPUTIL_
/****************************************************************************/
/* INCLUDES */
/****************************************************************************/
#include <ncbi.h>
#include <objfeat.h>
#include <objseq.h>
#include <objloc.h>
#include <objalign.h>
#include <sequtil.h>
#include <objfdef.h>
#include <lsqfetch.h>
#include <objmgr.h>
#include <gather.h>
/*local include file*/
#include <jzmisc.h>
/****************************************************************************/
/* TYPEDEFS */
/****************************************************************************/
typedef struct genedata{
CharPtr symbol;
Boolean landmark; /*is it a landmark gene?*/
Uint2 entityID;
Uint4 itemID;
Uint2 itemType;
Uint2 subtype;
Uint2 priority;
Int4 x, y; /*the x, y coordinates on the picture*/
SeqLocPtr location;
SeqFeatPtr sfp;
ValNodePtr align_seg;
struct genedata PNTR next;
}GeneData, PNTR GeneDataPtr;
typedef ValNodePtr EnzPtr;
typedef struct enzdata{
CharPtr name;
CharPtr pattern;
Uint1 cut_pos;
}EnzData, PNTR EnzDataPtr;
typedef struct musksep{ /*Seq-entries from musk*/
SeqEntryPtr sep;
Boolean is_bin; /*is it loaded from a binary file?*/
Char file_name[100]; /*the name for the ASN.1 Seq-entry file*/
Pointer dataptr;
Uint2 datatype;
} MuskSep, PNTR MuskSepPtr;
/****************************************************************************/
/* FINCTION DEFINITIONS */
/****************************************************************************/
#undef NLM_EXTERN
#ifdef NLM_IMPORT
#define NLM_EXTERN NLM_IMPORT
#else
#define NLM_EXTERN extern
#endif
#ifdef __cplusplus
extern "C" {
#endif
NLM_EXTERN Int2 get_seg_num PROTO((SeqLocPtr slp));
NLM_EXTERN Int2 get_seglevels PROTO((BioseqPtr bsp));
NLM_EXTERN Int4Ptr get_priority_order PROTO((SeqEntryPtr sep, Int4Ptr num));
/****************************************************************
*
* LoadLandMarkGene(sep)
* get the landmark gene from the User-object in the descriptor
* all the genes are linked to a ValNode and vnp->choice is set
* to 1 to indicate it is a landmark gene
*
******************************************************************/
NLM_EXTERN ValNodePtr LoadLandMarkGene PROTO((SeqEntryPtr sep));
/*****************************************************************
*
* if sfp is a Gene-ref and contains the gene in g_list,
* return the string in g_list
* else return NULL
*
*****************************************************************/
NLM_EXTERN Boolean check_landmark PROTO((SeqFeatPtr sfp, CharPtr mark));
/******************************************************************
*
* load_gdata_marks(slp, gene_list, seglevels, sep, gdp)
* Gather the current Seq-entry to create the corresponding list of
* GeneDataPtr for the list of gene symbols
* slp: the target Seq-local. can be set to NULL
* gene_list: a list of query symbols
* seglevels: levels of gather
* sep: the Seq-entry
* gdp: the header of GeneDataPtr
*
********************************************************************/
NLM_EXTERN Boolean load_gdata_marks PROTO((SeqLocPtr slp,
ValNodePtr gene_list,
Int2 seglevels,
SeqEntryPtr sep,
GeneDataPtr PNTR pgdp));
NLM_EXTERN GeneDataPtr LinkGeneData PROTO((GeneDataPtr PNTR head, GeneDataPtr newgdp));
NLM_EXTERN GeneDataPtr GeneDataFree PROTO((GeneDataPtr head));
NLM_EXTERN GeneDataPtr make_gene_data PROTO((ValNodePtr gene_list));
NLM_EXTERN void RefreshGeneData PROTO((GeneDataPtr gdp));
/*************************************************************************
*
* return the best location of the gene from sep.
* best is defined as the Bioseq with the highest searching prioirity
* e_start, e_stop record the extremes of the all the presence of
* the gene
*
*************************************************************************/
NLM_EXTERN SeqLocPtr get_location_for_query PROTO((SeqEntryPtr sep,
CharPtr gene,
Int4Ptr e_start,
Int4Ptr e_stop));
/*****************************************************************
*
* Build a list of gene symbols to supply the Find Gene option in
* the global view
*
******************************************************************/
NLM_EXTERN ValNodePtr BuildGeneList PROTO((SeqEntryPtr sep));
/****************************************************
*
* make_enzyme_list(file_name)
* build a ValNodeList of EnzDataPtr from teh
* input file
*
****************************************************/
NLM_EXTERN EnzPtr make_enzyme_list PROTO((CharPtr file_name));
/**************************************************
*
* free_enzyme_list(enp)
* Free a list of EnzDataPtr
*
**************************************************/
NLM_EXTERN EnzPtr free_enzyme_list PROTO((EnzPtr enp));
/**********************************************************************
*
* FreeEquivAlign(ealign_list)
* Free a list of Seq-annot that is of type Seq-align
* mostly, those are the externally loaded Seq-align for showing
* the Equiv map
*
***********************************************************************/
NLM_EXTERN ValNodePtr FreeEquivAlign PROTO((ValNodePtr ealign_list));
/*******************************************************************
*
* GetEquivAlignType(annot)
* annot stores the alignments of markers mapped by more than
* one groups. if return 1, the markers are the consistent markers
* if return 2, the markers are inconsistent markers
* if return 0, the alignment simply records the mapping to
* the sequence map
* if return -1, unknown status. Will be treated the same as 1
*
*******************************************************************/
NLM_EXTERN Int2 GetEquivAlignType PROTO((SeqAnnotPtr annot));
/***********************************************************************
*
* FreeMuskSep(sep_list)
* Free the manually loaded Seq-entries
* sep_list: a list of MuskSepPtr
*
***********************************************************************/
NLM_EXTERN ValNodePtr FreeMuskSep PROTO((ValNodePtr sep_list));
/*#####################################################################
#
# functions related to BioseqDraw
#
#
######################################################################*/
/**********************************************************************
*
* get_Bioseq_type(bsp)
* return the subclasses of Bioseq, such as the genetic or physical map
* depending on its bsp->repr type and bsp->seq_ext type.
*
**********************************************************************/
#define PHYSICAL_MAP 1
#define GENETIC_MAP 2
#define RESTRICTION_MAP 3
#define CYTO_MAP 4
#define VIRTUAL_SEQ 5
#define SEG_SEQ 6
#define RAW_SEQ 7
NLM_EXTERN Uint1 get_Bioseq_type PROTO((BioseqPtr bsp));
/*************************************************************************
*
* MapLayout is an ORDERED list of MapPos, which contains the layout
* for each map. It is used for determine the layout of map alignment
*
**************************************************************************/
typedef ValNode MapLayout, FAR *MapLayoutPtr;
typedef struct mappos{ /*holding the positin of each map*/
SeqLocPtr slp; /*the range of the map on display*/
Int2 entityID;
Int4 left, right; /*the left, right position on the graph*/
Int4 top, bottom; /*the top, bottom position on the graph*/
Int4 seq_top, seq_bottom; /*the top, bottom position of the sequence*/
}MapPos, PNTR MapPosPtr;
NLM_EXTERN MapLayoutPtr MapLayoutFree PROTO ((MapLayoutPtr head));
#define MAX_DIM 100 /*the maximal dimension of a map alignment*/
typedef struct alignpos{ /*the position of each alignment mapped to the graph*/
Int4 left[MAX_DIM];
Int4 right[MAX_DIM];
Int4 top[MAX_DIM];
Int4 bottom[MAX_DIM];
}AlignPos, PNTR AlignPosPtr;
/********************************************************************
*
* SortAlignPosition(app, dim)
* Sort out the order of a multiple alignment in the vertical
* display mode. It is sorted to the descending order of
* app->top. one app correspond to one aligned segment. It can
* be of multiple dimensions
* app: alignment position
* dim: dimention of alignment
*
*********************************************************************/
NLM_EXTERN void SortAlignPosition PROTO((AlignPosPtr app, Int2 dim));
/***************************************************************************
*
* getBioseqNumbering(bsp)
* get the numbering object from Seq_descr. If no numbering, return NULL
*
****************************************************************************/
NLM_EXTERN NumberingPtr getBioseqNumbering PROTO ((BioseqPtr bsp));
/**********************************************************************
*
* IS_NUM_GENE(gene_label): kludge function
* determine if the gene_label is used as a map unit, such
* as the case for C.elegans physical map
*
**********************************************************************/
NLM_EXTERN Boolean IS_NUM_GENE PROTO ((CharPtr gene_label));
/***********************************************************************
*
* map_unit_label(): create a label for the map unit
* if(np == NULL), use the actual position. use_kb =TRUE converts
* to kilobase unit
*
***********************************************************************/
NLM_EXTERN Boolean map_unit_label PROTO((Int4 pos, NumberingPtr np, CharPtr label, Boolean use_kb));
#define HUMAN_CYTO 1
#define FLY_CYTO 2
/****************************************************************
*
* ck_cyto_type() a kludge to determine if the cytogenetic map
* follows the band pattern of Fly or that of Human
*
****************************************************************/
NLM_EXTERN Uint1 ck_cyto_type PROTO((SeqFeatPtr sfp));
/*band used for the Flybase*/
#define MISC_BND 0 /*band is unknown*/
#define BND 1 /*band*/
#define HET 2 /*heterochromatin*/
#define TEL 3 /*telemere*/
#define CEN 4 /*centromere*/
/*band used for Human chromosome*/
#define BAND_POINT 5 /*inclue the centromere and telemere*/
#define GIEMSA_POS 6 /*Giemsa positive*/
#define GIEMSA_NEG 7 /*Giemsa negative*/
#define ACRO_CENTRIC 8 /*Acrocentric*/
#define VARIABLE_REG 9 /*VariableReg*/
/**********************************************************************
*
* get_band_type(UserObjectPtr)
* get the band type in a Cytogenetic map
*
***********************************************************************/
NLM_EXTERN Uint1 get_band_type PROTO((UserObjectPtr uop));
/*********************************************************************
*
* get_band_name(uop)
* parse the band name from a cytogenetic map
*
*********************************************************************/
NLM_EXTERN CharPtr get_band_name PROTO((UserObjectPtr uop));
/*************************************************************************
*
* is_label_match(obj_id, label)
* return TRUE if obj_id->str matches with label
*
**************************************************************************/
NLM_EXTERN Boolean is_label_match PROTO((ObjectIdPtr obj_id, CharPtr label));
/***********************************************************************
*
* a set of default parameters used in drawing and layout of the
* sequence picture
*
***********************************************************************/
#define LABEL_SPACE 12 /*for layout the mapdata*/
#define TICK_LEN 8 /*length of a tick mark*/
#define BAND_WIDTH 6 /*the width of the band of cytogenetic map*/
#ifdef WIN_MSWIN
#define ENZ_WIDTH 14 /*the width of the enzyme for Windows*/
#else
#define ENZ_WIDTH 10
#endif
#define MAP_SPACE 30 /*the space separate the maps*/
#define LINE_SPACE 4 /*the space among clones if drawn as line*/
#define SIMPLE_LEN 100000 /*the min length for simple drawing*/
#ifdef WIN_MSWIN
#define SEQ_WIDTH 14 /*the width of the enzyme for Windows*/
#else
#define SEQ_WIDTH 10
#endif
#define FEAT_WIDTH 5
NLM_EXTERN ValNodePtr free_slp_list PROTO((ValNodePtr slp_list));
NLM_EXTERN ValNodePtr get_equiv_align PROTO((SeqEntryPtr sep));
/*check to see if the alignment is designed to be displayed as the history*/
NLM_EXTERN Boolean is_annot_for_hist_alignment PROTO((SeqAnnotPtr annot));
/************************************************************************
*
* is_map_segment(slp)
* return TRUE if slp is a Seq-loc from a amp
* return FALSE if it is not a map or the Bioseq is not loaded to
* the memory yet
*
************************************************************************/
NLM_EXTERN Boolean is_map_segment PROTO((SeqLocPtr slp));
/***************************************************************
*
* figure_map_seqid(ext_loc)
* a very unreliable way to figure out the if there is a
* Seq-id for the map. It is dependent on the frequency of
* the Seq-id in a segmented sequence
*
****************************************************************/
NLM_EXTERN SeqIdPtr figure_map_seqid PROTO((SeqLocPtr ext_loc));
NLM_EXTERN Boolean make_Bioseq_list PROTO((SeqEntryPtr sep, ValNodePtr PNTR bsp_list, ValNodePtr PNTR equiv_align));
NLM_EXTERN Boolean start_new_stack PROTO((Int4 pre_pos, Int4 pos, Int4 scale, Int2Ptr label_width, Int2 c_width));
NLM_EXTERN Int4 calculate_ruler PROTO((Int4 scaleX));
#define GENE_MARK 0
#define CDS_MARK 1
/***********************************************************************
*
* for each sequence in alignment stored in Seq-hist, if the aligned
* sequence itself contains alignment, it is temporarily loaded as
* a user-object in the descriptor of the bioseq. This function extract
* the information from the descripor and store it as a list of gi's
* plus the kludge offset value
*
************************************************************************/
NLM_EXTERN ValNodePtr get_seqids_with_alignment PROTO((BioseqPtr mbsp));
/***********************************************************************
*
* map the kludge offet factor for Unigene, RICE, MOUSE ,FlyBase, etc
*
************************************************************************/
NLM_EXTERN Int4 get_kludge_factor PROTO((SeqIdPtr sip, Int4Ptr gi));
NLM_EXTERN Boolean BioseqHasLandMark PROTO((BioseqPtr bsp));
typedef struct repeat_region{
GatherRange gr;
Char rep_name[20];
}RepeatRegion, PNTR RepeatRegionPtr;
typedef struct align_region{
Char annotDB[21];
Uint1 displayOrder;
GatherRange gr; /*extremes for the intervals*/
ValNodePtr intervals; /*the intervals. more than one if there are multiple alignments for the same sequence*/
Char seq_name[20];
FloatHi score;
FloatHi p_val;
FloatHi e_val;
Int4 line;
Int4 g_left, g_right, g_top, g_bottom; /*the rectangle that defines the alignment*/
Uint1 status; /*range from 0-4 for the lowest to the highest score*/
}AlignRegion, PNTR AlignRegionPtr;
/*trying to parse the descriptor in Seq-annot for the alignment display*/
#define ANNOT_BLAST 1 /*it is annotation on the Blast search*/
#define ANNOT_CONSIST 2 /*annotates the consistency between a clone and
the genome map. For Eric Green's map*/
#define ANNOT_FISH 3 /*it is the annotation on a FISH map */
NLM_EXTERN Uint1 get_align_annot_qual PROTO((SeqAnnotPtr annot, CharPtr annotDB, Int4 buf_size, Uint1Ptr annot_type));
/**************************************************************************
*
* collect_repeats_and_align(slp, rrp_list, arp_list, seglevels, sep)
*
* collect repeat features and alignment for global display
* rrp_list: the list of the repeat features
* arp_list: the list of the alignments
*
***************************************************************************/
NLM_EXTERN Boolean collect_repeats_and_align PROTO((SeqLocPtr slp, ValNodePtr PNTR rrp_list, ValNodePtr PNTR arp_list, Int2 seglevels, SeqEntryPtr sep, Uint1Ptr align_has_status));
/**************************************************************
*
* get the alignment for the FISH map
* for the Human Cytogenetic map, if there is a
* Seq-annot stored as Hist-align and the intervals are
* aligned to the FISH map, it will return the Seq-align
* of the alignment to the FISH map
*
***************************************************************/
NLM_EXTERN SeqAlignPtr get_FISH_align PROTO((BioseqPtr bsp));
/*******************************************************
*
* annot_is_user_defined(annot)
*
* determine if the Seq-annot contains the features
* that were defined by the user. This is to
* distinguish the local data from the public data
* set
*
********************************************************/
NLM_EXTERN Boolean annot_is_user_defined PROTO((SeqAnnotPtr annot));
/*************************************************************
*
* determine if the Bioseq in the SeqEntry contains
* the UserObject for a Map Legend
*
**************************************************************/
NLM_EXTERN UserObjectPtr BioseqHasMapLegend PROTO((BioseqPtr bsp));
NLM_EXTERN Boolean SeqLocListHasLegend PROTO((ValNodePtr slp_list));
NLM_EXTERN Boolean IsSeqIndexMap PROTO((BioseqPtr bsp));
#define SEQINDEX_VAL 255 /*used to store as the choice in slp_list*/
/*functions related to the yac2band and viewctg*/
/*the YAC contig maps are either from Whitehead or from Eric Green's group*/
#define YAC_MIT 1
#define YAC_NHGRI 2
#define GENETIC_GENETHON 4
#define GENETIC_CHLC 8
/*find a list of the seqlocs on the contig that maps to the
*current chromosome. For now, only the Whitehead map and the
*Eric Green's map is considered. return a list of Seq-locs that
*contains contigs within the region
*/
NLM_EXTERN Uint1 FindContigDB PROTO((SeqIdPtr sip));
/*return a list of Seq-locs which are the contigs mapped to
* the current location on the genome
*
*/
NLM_EXTERN ValNodePtr FindContigList PROTO((SeqLocPtr chr_slp));
NLM_EXTERN Boolean is_lod_score_annot PROTO((SeqAnnotPtr annot));
NLM_EXTERN Int2 GetLODScoreNumber PROTO((BioseqPtr bsp));
NLM_EXTERN CharPtr GetAnnotTitle PROTO((SeqAnnotPtr annot));
NLM_EXTERN Uint1 GetLODScoreBitValue PROTO((SeqFeatPtr sfp));
#ifdef __cplusplus
}
#endif
#undef NLM_EXTERN
#ifdef NLM_EXPORT
#define NLM_EXTERN NLM_EXPORT
#else
#define NLM_EXTERN
#endif
#endif
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