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Chloe Dequeker
INTBuilder
Commits
a6994610
Commit
a6994610
authored
Oct 31, 2016
by
Chloe Dequeker
Browse files
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Plain Diff
Adding I/O file for according functions
parent
82c1835f
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Showing
4 changed files
with
295 additions
and
280 deletions
+295
-280
INTBuilder.c
src/INTBuilder.c
+3
-277
INTBuilder.h
src/INTBuilder.h
+0
-3
fileIO.c
src/fileIO.c
+281
-0
fileIO.h
src/fileIO.h
+11
-0
No files found.
src/INTBuilder.c
View file @
a6994610
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <math.h>
#include "struct.h"
#include "fileIO.h"
#include "allocate.h"
#include "rotation.h"
#include "param.h"
...
...
@@ -212,288 +212,14 @@ void getInterface(struct pdb_values* pdbR, struct pdb_values* pdbL){
}
/* Output the ligand's interface */
for
(
i
=
0
;
i
<
nbCandL
;
i
++
){
if
(
t_candidateL
[
i
]
->
isCandidate
){
fprintf
(
outputFile_lig
,
"'%s' '%c' "
,
strtok
(
t_candidateL
[
i
]
->
idRes
,
" "
),
t_candidateL
[
i
]
->
chain
);
fflush
(
outputFile_lig
);
}
}
write_candidate
(
t_candidateL
,
nbCandL
,
outputFile_lig
);
/* Output the receptor's interface */
for
(
i
=
0
;
i
<
nbCandR
;
i
++
){
if
(
t_candidateR
[
i
]
->
isCandidate
){
fprintf
(
outputFile_rec
,
"'%s' '%c' "
,
strtok
(
t_candidateR
[
i
]
->
idRes
,
" "
),
t_candidateR
[
i
]
->
chain
);
fflush
(
outputFile_lig
);
}
}
write_candidate
(
t_candidateR
,
nbCandR
,
outputFile_rec
);
free
(
t_candidateL
);
free
(
t_candidateR
);
}
struct
docking_results
*
getDataForComplex
(){
char
*
buf
=
NULL
;
FILE
*
condFile_stream
=
NULL
;
int
numberOfConf
=
0
,
rc
;
int
idConf
=
0
,
buf4
,
prevID
=
-
1
;
float
buf3
=
0
;
size_t
len
=
2000
;
struct
docking_results
*
dock_res
=
NULL
;
condFile_stream
=
fopen
(
dockingFile
,
"r"
);
/* Get the number of conformations */
rc
=
fscanf
(
condFile_stream
,
"%f"
,
&
buf3
);
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the rest of the line */
if
(
buf3
>
numberOfConf
)
numberOfConf
=
(
int
)
buf3
;
while
(
!
feof
(
condFile_stream
)){
rc
=
fscanf
(
condFile_stream
,
"%f"
,
&
buf3
);
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the rest of the line */
if
(
buf3
>
numberOfConf
)
numberOfConf
=
(
int
)
buf3
;
}
numberOfConf
++
;
rewind
(
condFile_stream
);
/* This is with the first MAXDo format */
if
(
!
HCMD2
){
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the first line */
}
/* Now that we know how many conformations we are dealing with
* allocate a structure large enough
*/
dock_res
=
allocate_dockingResults
(
numberOfConf
);
while
(
!
feof
(
condFile_stream
)){
/* HCMD2 format */
if
(
HCMD2
){
/* We take the first value as it is the ID of the conformation
* The rest of the line doesn't interests us here
*/
rc
=
fscanf
(
condFile_stream
,
"%d %d %d %d"
,
&
idConf
,
&
buf4
,
&
buf4
,
&
buf4
);
}
else
{
/* First MAXDo format */
rc
=
fscanf
(
condFile_stream
,
"%d %d"
,
&
idConf
,
&
buf4
);
}
/* This happens when we arrive on the last line */
if
(
prevID
==
idConf
){
break
;
}
else
{
prevID
=
idConf
;
}
rc
=
fscanf
(
condFile_stream
,
"%f %f %f %f %f %f"
,
&
dock_res
->
distCenters
[
idConf
],
&
dock_res
->
theta
[
idConf
],
&
dock_res
->
phi
[
idConf
],
&
dock_res
->
alpha
[
idConf
],
&
dock_res
->
beta
[
idConf
],
&
dock_res
->
gamma
[
idConf
]);
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the rest of the line */
/* theta and phi angles are written in Radian already
* However that is not the case for alpha, beta and gamma angles
*/
//dock_res->theta[idConf] = dock_res->theta[idConf]*COEF_DEGREE_TO_RADIAN;
//dock_res->phi[idConf] = dock_res->phi[idConf]*COEF_DEGREE_TO_RADIAN;
dock_res
->
alpha
[
idConf
]
=
dock_res
->
alpha
[
idConf
]
*
COEF_DEGREE_TO_RADIAN
;
dock_res
->
beta
[
idConf
]
=
dock_res
->
beta
[
idConf
]
*
COEF_DEGREE_TO_RADIAN
;
dock_res
->
gamma
[
idConf
]
=
dock_res
->
gamma
[
idConf
]
*
COEF_DEGREE_TO_RADIAN
;
}
dock_res
->
nbConf
=
numberOfConf
;
fclose
(
condFile_stream
);
free
(
buf
);
return
dock_res
;
}
struct
pdb_values
*
readPDB
(
char
*
protein
)
{
/* This function reads a PDB file and fills a structure
* containing all the necessary information.
* The structure filled is of type struct pdb_values. It is
* allocated and a pointer to this structure is returned at the end
*/
int
i
=
0
,
j
=
0
;
int
rc
=
0
,
nbRes
=
0
,
numCA
=
0
;
int
curRes
=
0
,
curAtom
=
0
,
firstLine
=
1
;
size_t
len
=
2000
;
char
totalFilePath
[
200
];
char
buf2
[
15
];
char
buf3
[
50
];
char
bufID
[
10
]
=
"
\0
"
;
char
*
buf
=
NULL
;
FILE
*
pdbFile_stream
=
NULL
;
struct
pdb_values
*
pdb_prot
=
NULL
;
sprintf
(
totalFilePath
,
"%s/%s.pdb"
,
pdbDir
,
protein
);
if
(
access
(
totalFilePath
,
F_OK
)
==
-
1
){
/* File does not exists, 4 file in this case
* Return NULL, which should be treated accordingly
*/
fprintf
(
stderr
,
"No such file : %s
\n
"
,
totalFilePath
);
exit
(
EXIT_FAILURE
);
}
pdbFile_stream
=
fopen
(
totalFilePath
,
"r"
);
if
(
pdbFile_stream
==
NULL
){
perror
(
"fopen"
);
exit
(
EXIT_FAILURE
);
}
/* Get the number of residue for this protein */
strcpy
(
buf3
,
"
\0
"
);
while
(
!
feof
(
pdbFile_stream
)){
rc
=
getline
(
&
buf
,
&
len
,
pdbFile_stream
);
strncpy
(
buf2
,
buf
,
4
);
buf2
[
4
]
=
'\0'
;
if
(
strcmp
(
"ATOM"
,
buf2
)
==
0
){
/* get the residue ID */
strncpy
(
buf2
,
buf
+
22
,
5
);
buf2
[
5
]
=
'\0'
;
/* We make sure that we don't count twice the
* same residue
*/
if
(
strcmp
(
buf2
,
buf3
)
!=
0
){
nbRes
++
;
strcpy
(
buf3
,
buf2
);
}
}
}
/* Come back at the start of the file */
rewind
(
pdbFile_stream
);
pdb_prot
=
allocate_pdb
(
nbRes
);
while
(
!
feof
(
pdbFile_stream
)){
rc
=
getline
(
&
buf
,
&
len
,
pdbFile_stream
);
if
(
feof
(
pdbFile_stream
))
break
;
/* else the last line is read twice */
strncpy
(
buf2
,
buf
,
4
);
buf2
[
4
]
=
'\0'
;
if
(
strcmp
(
"ATOM"
,
buf2
)
!=
0
){
continue
;
}
strncpy
(
bufID
,
buf
+
22
,
5
);
bufID
[
5
]
=
'\0'
;
/* if this is not the same residue as previously */
if
(
firstLine
||
strcmp
(
bufID
,
pdb_prot
->
residues
[
curRes
].
idRes
)
!=
0
){
if
(
firstLine
){
firstLine
=
0
;
}
else
{
curRes
++
;
}
curAtom
=
0
;
/* res name */
strncpy
(
pdb_prot
->
residues
[
curRes
].
resName
,
buf
+
17
,
3
);
pdb_prot
->
residues
[
curRes
].
resName
[
3
]
=
'\0'
;
/* res ID */
strncpy
(
pdb_prot
->
residues
[
curRes
].
idRes
,
buf
+
22
,
5
);
pdb_prot
->
residues
[
curRes
].
idRes
[
5
]
=
'\0'
;
/* atom chain */
pdb_prot
->
residues
[
curRes
].
chain
=
buf
[
21
];
}
/* atom type */
strncpy
(
pdb_prot
->
residues
[
curRes
].
atomType
[
curAtom
],
buf
+
13
,
3
);
pdb_prot
->
residues
[
curRes
].
atomType
[
curAtom
][
3
]
=
'\0'
;
/* atom ID */
strncpy
(
buf2
,
buf
+
6
,
5
);
buf2
[
5
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
idAtom
[
curAtom
]
=
atoi
(
buf2
);
/* atom X */
strncpy
(
buf2
,
buf
+
30
,
8
);
buf2
[
8
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
x
[
curAtom
]
=
atof
(
buf2
);
/* atom Y */
strncpy
(
buf2
,
buf
+
38
,
8
);
buf2
[
8
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
y
[
curAtom
]
=
atof
(
buf2
);
/* atom Z */
strncpy
(
buf2
,
buf
+
46
,
8
);
buf2
[
8
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
z
[
curAtom
]
=
atof
(
buf2
);
/* If we encounter the first or fifth CA, we note their coordinates
* specifically. We need them for the rotation
*/
if
(
strcmp
(
"CA "
,
pdb_prot
->
residues
[
curRes
].
atomType
[
curAtom
])
==
0
){
numCA
++
;
if
(
numCA
==
1
){
pdb_prot
->
xCA1
=
pdb_prot
->
residues
[
curRes
].
x
[
curAtom
];
pdb_prot
->
yCA1
=
pdb_prot
->
residues
[
curRes
].
y
[
curAtom
];
pdb_prot
->
zCA1
=
pdb_prot
->
residues
[
curRes
].
z
[
curAtom
];
}
else
if
(
numCA
==
5
){
pdb_prot
->
xCA5
=
pdb_prot
->
residues
[
curRes
].
x
[
curAtom
];
pdb_prot
->
yCA5
=
pdb_prot
->
residues
[
curRes
].
y
[
curAtom
];
pdb_prot
->
zCA5
=
pdb_prot
->
residues
[
curRes
].
z
[
curAtom
];
}
}
curAtom
++
;
pdb_prot
->
residues
[
curRes
].
nbAtom
++
;
pdb_prot
->
nbAtom
++
;
}
/* Compute the geometric center of the protein */
for
(
i
=
0
;
i
<
pdb_prot
->
nbRes
;
i
++
){
for
(
j
=
0
;
j
<
pdb_prot
->
residues
[
i
].
nbAtom
;
j
++
){
pdb_prot
->
centerX
=
pdb_prot
->
centerX
+
pdb_prot
->
residues
[
i
].
x
[
j
];
pdb_prot
->
centerY
=
pdb_prot
->
centerY
+
pdb_prot
->
residues
[
i
].
y
[
j
];
pdb_prot
->
centerZ
=
pdb_prot
->
centerZ
+
pdb_prot
->
residues
[
i
].
z
[
j
];
}
}
pdb_prot
->
centerX
/=
pdb_prot
->
nbAtom
;
pdb_prot
->
centerY
/=
pdb_prot
->
nbAtom
;
pdb_prot
->
centerZ
/=
pdb_prot
->
nbAtom
;
free
(
buf
);
fclose
(
pdbFile_stream
);
return
pdb_prot
;
}
void
writePDB
(
struct
pdb_values
*
pdb
,
char
*
protName
,
int
nConf
){
/* Output the PDB corresponding to the conformation nConf */
int
i
=
0
,
j
=
0
;
char
buf
[
500
];
FILE
*
fw
=
NULL
;
sprintf
(
buf
,
"%s/%s_%d.pdb"
,
outputPDB
,
protName
,
nConf
);
fw
=
fopen
(
buf
,
"w"
);
if
(
fw
==
NULL
){
perror
(
"fopen"
);
exit
(
EXIT_FAILURE
);
}
for
(
i
=
0
;
i
<
pdb
->
nbRes
;
i
++
){
for
(
j
=
0
;
j
<
pdb
->
residues
[
i
].
nbAtom
;
j
++
){
fprintf
(
fw
,
FORMAT_LINE_PDB
,
pdb
->
residues
[
i
].
idAtom
[
j
],
pdb
->
residues
[
i
].
atomType
[
j
],
pdb
->
residues
[
i
].
resName
,
pdb
->
residues
[
i
].
chain
,
pdb
->
residues
[
i
].
idRes
,
pdb
->
residues
[
i
].
x
[
j
],
pdb
->
residues
[
i
].
y
[
j
],
pdb
->
residues
[
i
].
z
[
j
]);
}
}
fclose
(
fw
);
}
int
main
(
int
argc
,
char
**
argv
){
/* Starting point of the program */
...
...
src/INTBuilder.h
View file @
a6994610
...
...
@@ -5,10 +5,7 @@
void
getCandidatesForP1
(
struct
pdb_values
*
pdb2
,
struct
residue
**
t_candid1
,
struct
residue
**
t_candid2
,
int
*
nbCand1
,
int
*
nbCand2
);
void
getInterface
(
struct
pdb_values
*
pdbR
,
struct
pdb_values
*
pdbL
);
struct
docking_results
*
getDataForComplex
();
struct
pdb_values
*
readPDB
(
char
*
protein
)
;
void
removeSpace
(
char
*
string
);
void
writePDB
(
struct
pdb_values
*
pdb
,
char
*
protName
,
int
nbConf
);
int
main
(
int
argc
,
char
**
argv
);
#endif
src/fileIO.c
0 → 100644
View file @
a6994610
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include "struct.h"
#include "allocate.h"
struct
docking_results
*
getDataForComplex
(){
char
*
buf
=
NULL
;
FILE
*
condFile_stream
=
NULL
;
int
numberOfConf
=
0
,
rc
;
int
idConf
=
0
,
buf4
,
prevID
=
-
1
;
float
buf3
=
0
;
size_t
len
=
2000
;
struct
docking_results
*
dock_res
=
NULL
;
condFile_stream
=
fopen
(
dockingFile
,
"r"
);
/* Get the number of conformations */
rc
=
fscanf
(
condFile_stream
,
"%f"
,
&
buf3
);
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the rest of the line */
if
(
buf3
>
numberOfConf
)
numberOfConf
=
(
int
)
buf3
;
while
(
!
feof
(
condFile_stream
)){
rc
=
fscanf
(
condFile_stream
,
"%f"
,
&
buf3
);
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the rest of the line */
if
(
buf3
>
numberOfConf
)
numberOfConf
=
(
int
)
buf3
;
}
numberOfConf
++
;
rewind
(
condFile_stream
);
/* This is with the first MAXDo format */
if
(
!
HCMD2
){
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the first line */
}
/* Now that we know how many conformations we are dealing with
* allocate a structure large enough
*/
dock_res
=
allocate_dockingResults
(
numberOfConf
);
while
(
!
feof
(
condFile_stream
)){
/* HCMD2 format */
if
(
HCMD2
){
/* We take the first value as it is the ID of the conformation
* The rest of the line doesn't interests us here
*/
rc
=
fscanf
(
condFile_stream
,
"%d %d %d %d"
,
&
idConf
,
&
buf4
,
&
buf4
,
&
buf4
);
}
else
{
/* First MAXDo format */
rc
=
fscanf
(
condFile_stream
,
"%d %d"
,
&
idConf
,
&
buf4
);
}
/* This happens when we arrive on the last line */
if
(
prevID
==
idConf
){
break
;
}
else
{
prevID
=
idConf
;
}
rc
=
fscanf
(
condFile_stream
,
"%f %f %f %f %f %f"
,
&
dock_res
->
distCenters
[
idConf
],
&
dock_res
->
theta
[
idConf
],
&
dock_res
->
phi
[
idConf
],
&
dock_res
->
alpha
[
idConf
],
&
dock_res
->
beta
[
idConf
],
&
dock_res
->
gamma
[
idConf
]);
rc
=
getline
(
&
buf
,
&
len
,
condFile_stream
);
/* Get rid of the rest of the line */
/* theta and phi angles are written in Radian already
* However that is not the case for alpha, beta and gamma angles
*/
//dock_res->theta[idConf] = dock_res->theta[idConf]*COEF_DEGREE_TO_RADIAN;
//dock_res->phi[idConf] = dock_res->phi[idConf]*COEF_DEGREE_TO_RADIAN;
dock_res
->
alpha
[
idConf
]
=
dock_res
->
alpha
[
idConf
]
*
COEF_DEGREE_TO_RADIAN
;
dock_res
->
beta
[
idConf
]
=
dock_res
->
beta
[
idConf
]
*
COEF_DEGREE_TO_RADIAN
;
dock_res
->
gamma
[
idConf
]
=
dock_res
->
gamma
[
idConf
]
*
COEF_DEGREE_TO_RADIAN
;
}
dock_res
->
nbConf
=
numberOfConf
;
fclose
(
condFile_stream
);
free
(
buf
);
return
dock_res
;
}
struct
pdb_values
*
readPDB
(
char
*
protein
)
{
/* This function reads a PDB file and fills a structure
* containing all the necessary information.
* The structure filled is of type struct pdb_values. It is
* allocated and a pointer to this structure is returned at the end
*/
int
i
=
0
,
j
=
0
;
int
rc
=
0
,
nbRes
=
0
,
numCA
=
0
;
int
curRes
=
0
,
curAtom
=
0
,
firstLine
=
1
;
size_t
len
=
2000
;
char
totalFilePath
[
200
];
char
buf2
[
15
];
char
buf3
[
50
];
char
bufID
[
10
]
=
"
\0
"
;
char
*
buf
=
NULL
;
FILE
*
pdbFile_stream
=
NULL
;
struct
pdb_values
*
pdb_prot
=
NULL
;
sprintf
(
totalFilePath
,
"%s/%s.pdb"
,
pdbDir
,
protein
);
if
(
access
(
totalFilePath
,
F_OK
)
==
-
1
){
/* File does not exists, 4 file in this case
* Return NULL, which should be treated accordingly
*/
fprintf
(
stderr
,
"No such file : %s
\n
"
,
totalFilePath
);
exit
(
EXIT_FAILURE
);
}
pdbFile_stream
=
fopen
(
totalFilePath
,
"r"
);
if
(
pdbFile_stream
==
NULL
){
perror
(
"fopen"
);
exit
(
EXIT_FAILURE
);
}
/* Get the number of residue for this protein */
strcpy
(
buf3
,
"
\0
"
);
while
(
!
feof
(
pdbFile_stream
)){
rc
=
getline
(
&
buf
,
&
len
,
pdbFile_stream
);
strncpy
(
buf2
,
buf
,
4
);
buf2
[
4
]
=
'\0'
;
if
(
strcmp
(
"ATOM"
,
buf2
)
==
0
){
/* get the residue ID */
strncpy
(
buf2
,
buf
+
22
,
5
);
buf2
[
5
]
=
'\0'
;
/* We make sure that we don't count twice the
* same residue
*/
if
(
strcmp
(
buf2
,
buf3
)
!=
0
){
nbRes
++
;
strcpy
(
buf3
,
buf2
);
}
}
}
/* Come back at the start of the file */
rewind
(
pdbFile_stream
);
pdb_prot
=
allocate_pdb
(
nbRes
);
while
(
!
feof
(
pdbFile_stream
)){
rc
=
getline
(
&
buf
,
&
len
,
pdbFile_stream
);
if
(
feof
(
pdbFile_stream
))
break
;
/* else the last line is read twice */
strncpy
(
buf2
,
buf
,
4
);
buf2
[
4
]
=
'\0'
;
if
(
strcmp
(
"ATOM"
,
buf2
)
!=
0
){
continue
;
}
strncpy
(
bufID
,
buf
+
22
,
5
);
bufID
[
5
]
=
'\0'
;
/* if this is not the same residue as previously */
if
(
firstLine
||
strcmp
(
bufID
,
pdb_prot
->
residues
[
curRes
].
idRes
)
!=
0
){
if
(
firstLine
){
firstLine
=
0
;
}
else
{
curRes
++
;
}
curAtom
=
0
;
/* res name */
strncpy
(
pdb_prot
->
residues
[
curRes
].
resName
,
buf
+
17
,
3
);
pdb_prot
->
residues
[
curRes
].
resName
[
3
]
=
'\0'
;
/* res ID */
strncpy
(
pdb_prot
->
residues
[
curRes
].
idRes
,
buf
+
22
,
5
);
pdb_prot
->
residues
[
curRes
].
idRes
[
5
]
=
'\0'
;
/* atom chain */
pdb_prot
->
residues
[
curRes
].
chain
=
buf
[
21
];
}
/* atom type */
strncpy
(
pdb_prot
->
residues
[
curRes
].
atomType
[
curAtom
],
buf
+
13
,
3
);
pdb_prot
->
residues
[
curRes
].
atomType
[
curAtom
][
3
]
=
'\0'
;
/* atom ID */
strncpy
(
buf2
,
buf
+
6
,
5
);
buf2
[
5
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
idAtom
[
curAtom
]
=
atoi
(
buf2
);
/* atom X */
strncpy
(
buf2
,
buf
+
30
,
8
);
buf2
[
8
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
x
[
curAtom
]
=
atof
(
buf2
);
/* atom Y */
strncpy
(
buf2
,
buf
+
38
,
8
);
buf2
[
8
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
y
[
curAtom
]
=
atof
(
buf2
);
/* atom Z */
strncpy
(
buf2
,
buf
+
46
,
8
);
buf2
[
8
]
=
'\0'
;
pdb_prot
->
residues
[
curRes
].
z
[
curAtom
]
=
atof
(
buf2
);
/* If we encounter the first or fifth CA, we note their coordinates
* specifically. We need them for the rotation
*/
if
(
strcmp
(
"CA "
,
pdb_prot
->
residues
[
curRes
].
atomType
[
curAtom
])
==
0
){
numCA
++
;
if
(
numCA
==
1
){
pdb_prot
->
xCA1
=
pdb_prot
->
residues
[
curRes
].
x
[
curAtom
];
pdb_prot
->
yCA1
=
pdb_prot
->
residues
[
curRes
].
y
[
curAtom
];
pdb_prot
->
zCA1
=
pdb_prot
->
residues
[
curRes
].
z
[
curAtom
];
}
else
if
(
numCA
==
5
){
pdb_prot
->
xCA5
=
pdb_prot
->
residues
[
curRes
].
x
[
curAtom
];
pdb_prot
->
yCA5
=
pdb_prot
->
residues
[
curRes
].
y
[
curAtom
];
pdb_prot
->
zCA5
=
pdb_prot
->
residues
[
curRes
].
z
[
curAtom
];
}
}
curAtom
++
;
pdb_prot
->
residues
[
curRes
].
nbAtom
++
;
pdb_prot
->
nbAtom
++
;
}
/* Compute the geometric center of the protein */
for
(
i
=
0
;
i
<
pdb_prot
->
nbRes
;
i
++
){
for
(
j
=
0
;
j
<
pdb_prot
->
residues
[
i
].
nbAtom
;
j
++
){
pdb_prot
->
centerX
=
pdb_prot
->
centerX
+
pdb_prot
->
residues
[
i
].
x
[
j
];
pdb_prot
->
centerY
=
pdb_prot
->
centerY
+
pdb_prot
->
residues
[
i
].
y
[
j
];
pdb_prot
->
centerZ
=
pdb_prot
->
centerZ
+
pdb_prot
->
residues
[
i
].
z
[
j
];
}
}
pdb_prot
->
centerX
/=
pdb_prot
->
nbAtom
;
pdb_prot
->
centerY
/=
pdb_prot
->
nbAtom
;
pdb_prot
->
centerZ
/=
pdb_prot
->
nbAtom
;
free
(
buf
);
fclose
(
pdbFile_stream
);
return
pdb_prot
;
}
void
writePDB
(
struct
pdb_values
*
pdb
,
char
*
protName
,
int
nConf
){
/* Output the PDB corresponding to the conformation nConf */
int
i
=
0
,
j
=
0
;
char
buf
[
500
];
FILE
*
fw
=
NULL
;
sprintf
(
buf
,
"%s/%s_%d.pdb"
,
outputPDB
,
protName
,
nConf
);
fw
=
fopen
(
buf
,
"w"
);
if
(
fw
==
NULL
){
perror
(
"fopen"
);
exit
(
EXIT_FAILURE
);
}
for
(
i
=
0
;
i
<
pdb
->
nbRes
;
i
++
){
for
(
j
=
0
;
j
<
pdb
->
residues
[
i
].
nbAtom
;
j
++
){
fprintf
(
fw
,
FORMAT_LINE_PDB
,
pdb
->
residues
[
i
].
idAtom
[
j
],
pdb
->
residues
[
i
].
atomType
[
j
],
pdb
->
residues
[
i
].
resName
,
pdb
->
residues
[
i
].
chain
,
pdb
->
residues
[
i
].
idRes
,
pdb
->
residues
[
i
].
x
[
j
],
pdb
->
residues
[
i
].
y
[
j
],
pdb
->
residues
[
i
].
z
[
j
]);
}
}
fclose
(
fw
);
}
void
write_candidate
(
struct
residue
**
t_candid
,
int
sizeCand
,
FILE
*
output_stream
){
/* Output the residues selected as being part of the interface in the array
* t_candid
*/
int
i
=
0
;
for
(
i
=
0
;
i
<
sizeCand
;
i
++
){
if
(
t_candid
[
i
]
->
isCandidate
){
fprintf
(
output_stream
,
"'%s' '%c' "
,
strtok
(
t_candid
[
i
]
->
idRes
,
" "
),
t_candid
[
i
]
->
chain
);
fflush
(
output_stream
);
}
}
}
src/fileIO.h
0 → 100644
View file @
a6994610
#include "struct.h"
#ifndef FILEIO_HEADER
#define FILEIO_HEADER
void
writePDB
(
struct
pdb_values
*
pdb
,
char
*
protName
,
int
nConf
);
struct
pdb_values
*
readPDB
(
char
*
protein
);
struct
docking_results
*
getDataForComplex
();
void
write_candidate
(
struct
residue
**
t_candid
,
int
sizeCand
,
FILE
*
output_stream
);
#endif
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