5. XAS libraries

This section provides an index of XAS library routines in alphabetic order and by subject, which point to the appropriate syntax description in the relevant library section (XAS libraries are listed also in section 2.7).

Note that in the following sections a consistent notation and color code is used for routine synopsis, with a table entry like the following :

routine name

Library	library name	pointer to Fortran or C code
Calling sequence	`CALL routine(arg1,arg2,arg3)`
Arguments	Fortran type	`ARG1` for intent=input
	Fortran type	`ARG2` for intent=output (returned values)
	Fortran type	`ARG3` for intent=inout (modified values)

Library list

library name	purpose
fotlib	routines specifically used to access SAX telemetry on Final Observation Tapes
general	general purpose routines (e.g time-and-date, byteswap etc.)
graphserv	low level library for the graphics servers, and the relevant clients
hpgslib	routines specific of the SAX HPGSPC instrument
lecslib	routines specific of the SAX LECS instrument (unofficially supported)
mecslib	routines specific of the SAX MECS instrument
pdslib	routines specific of the SAX PDS instrument
vos	system dependent routines
xasgraph	high level graphics library
xaslib	routines independent of SAX data formats, but specific to handle mission-independent XAS data files and features

Routine alphabetic list

quick search from initial letter : A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A	abs_co_be add_end add_file add_init add_rew_tape add_skip_tape addhistory alum annotate_new annotate_old area_mr askbin asktime
B	bewin_trasp bindex bit_init_handle blkbincommon blkctxcommon blkhcommon blkpipecommon blksyscommon blkxrcommon blrng blsel broad2 buf_read buildpath
C	check_overtrace check_packet checkerr close_xas_file coda cofas collapse config_read connectserver conversion_needed copy_table_desc correct cpuclk create_image create_photon create_spectrum create_time cross_sec curft
D	decodetform depath depath_1 deregister detpointing df_axes df_pen_colours df_viewport df_window dotproduct
E	e2fwhm edit_cmd effmed ein eout escape exposure_b1s1 exposure_b1s3 extrp extrpd
F	f2x fchi fder filecorr_read fileinp_read fopen_rmf fopen_rmf free_lu fuga fuga_1
G	gas_cell get_datastyle get_global_default get_obs_chain get_start_end get_table_desc getmisalign gnomonic
H	h_add_keyword h_copy_all_header h_current_file h_find_keyword h_flush_header h_flush_minih h_load_header h_load_minih h_modify_keyword h_next_keyword h_read_keyword h_update_datasize hexi4 hp_gain_time hp_keywords hpcorrect
I	init_correct init_correct_hp init_correct_le init_correct_me init_correct_me_fast init_correct_pds init_timewindow inst_key_copy inst_key_find inst_key_flush inst_key_load inst_key_mult inst_key_read inst_key_set instr_keywords instrument_keys interpolate isregistered
J	julia
K	kapton2
L	lb_axis lb_number lb_tics le_gain_time lecs_keywords lecscorrect leftnumber lexan lintomm loadwindow lowcase
M	maketform matproduct me_gain_time me_init_map mecs_arf mecs_keywords mecs_matkeywords mecs_rmf mecscorrect misalign mmtopix mtinv multiply_rmfarf
N	nice_axes nicer_lin_axes nicer_log_axes no_keyword
O	open_image open_matrix open_new_xas_file open_old_xas_file open_photon open_spectrum open_time open_xas_ascii openwindow
P	pad_table parameter pds_arf pds_ein pds_en_resol pds_fotunits pds_freq pds_keywords pds_matinfo pds_matkeywords pds_matout pds_ogip pds_opnrmf pds_response pds_wrtrmf pds_wrtrmfebo pds_wrtrmfmat pdscorrect pdsmat_coef pdsmat_init pipeexist pktcap_load pktcap_lookup plot_xxy_bar plot_xxy_histo plot_xxy_join plot_xy_join poly poly_carbo preparse psf_mir psf_rad
Q
R	radecroll ran1 read_bin read_image reader reader_1 rearrange_instrec register rminmax
S	satpointing sax_acc_b1s1_i sax_acc_b1s1_y sax_acc_b1s2_i sax_acc_b1s2_y sax_acc_b1s3_y sax_acc_b2s1_y sax_acc_b3s1 sax_acc_b3s2 sax_acc_b3s3 sax_acc_b3s4 sax_acc_b3s5 sax_acc_b3s6 sax_acc_bt_1 sax_acc_bt_2 sax_acc_bt_3 sax_acc_hkrange sax_acc_loop sax_acc_open_sc_tlm sax_acc_open_tlm sax_acc_other_range sax_acc_preload sax_acc_range sax_acc_select sax_df_keywords sax_froot_name sax_open_dir sax_pcf_load sax_pcf_lookup sax_pktcap_load sax_which_data set_table_desc shell_fact shell_prob skytoxy spread swapi2 swapi4 swapr8
T	tapechar tetafi_xy time_1970 time_70s2mjd time_a2mjd time_array time_ascii time_cldj time_constants_setup timebin_b1s1 tmed tofits toqdp trimroot true_length
U	udouble unlintomm upcase update_start_end
V	voserror
W	winbe write_arf write_arf write_bin write_rmf write_rmf_ebo write_rmf_ebo write_rmf_mat write_rmf_mat
X	x_echo x_echo_error x_prompt x_read xasmatout xdofit xytosky
Y	y_clear_viewport y_closeplot y_colour y_coordinates y_draw y_fill y_get_cursor y_lines y_move y_openplot y_page y_readlut y_scale y_text y_viewport y_width y_window y_write_image y_writelut
Z	z_alloc z_aux_envfile z_break z_channel z_close_stream z_dealloc z_delete_file z_dieee_to_vms z_dvms_to_ieee z_exit z_fullname z_get_command z_get_global z_hostname z_ieee_to_vms z_initenv z_inquire z_logintime z_op_sys z_open z_open_stream z_print_file z_read_stream z_rename_file z_run z_schedule z_seek_stream z_set_global z_spawn z_sys_name z_syserror z_tape_open z_terminal z_ttyname z_username z_vms_to_ieee z_write_stream zc_alloc zc_break zc_cuserid zc_dtime zc_execvp zc_fclose zc_fopen zc_fork zc_fread zc_free zc_fseek zc_fwrite zc_getdomainname zc_getenv zc_gethostname zc_memcpy zc_mknod zc_putenv zc_pwnam zc_rename zc_stat zc_system zc_terminal zc_time zc_ttyname zc_unlink zx_get_parameter

Routine subject list

You can locate a routine by subject using the following lookup table. A routine may eventually appear in more than one category. Routines in a category are grouped by further subject, and finally in alphabetic order.

Routines which are similar, or are called exclusively one by another, are listed side by side.

General [files] [type conversion] [string manipulation] [time] [user i/f] [environment] [miscellanea] [initialization]

System [memory] [pipes] [process control] [misc high level VOS] [misc low level VOS] [environment]

XAS file format [files] [binary tables] [keywords]

XAS miscellanea [time window] [attitude]

Graphics [server communication] [high level] [low level]

SAX specific stuff [FOT tape] [FOT telemetry] [support] [accumulation]

SAX instruments

MECS [calibration parameters] [matrix support] [accumulation]

LECS [everything together] NB : unofficially supported

PDS [everything together] NB : code by ITESRE, no full support by the author

HPGSPC [everything together] NB : most code by IFCAI, no full support by the author ; rest of code unofficially supported

General	[files] [type conversion] [string manipulation] [time] [user i/f] [environment] [miscellanea] [initialization]
System	[memory] [pipes] [process control] [misc high level VOS] [misc low level VOS] [environment]
XAS file format	[files] [binary tables] [keywords]
XAS miscellanea	[time window] [attitude]
Graphics	[server communication] [high level] [low level]
SAX specific stuff	[FOT tape] [FOT telemetry] [support] [accumulation]
SAX instruments
MECS	[calibration parameters] [matrix support] [accumulation]
LECS	[everything together] NB : unofficially supported
PDS	[everything together] NB : code by ITESRE, no full support by the author
HPGSPC	[everything together] NB : most code by IFCAI, no full support by the author ; rest of code unofficially supported

general file access

These routines shall be used to deal with generic files (in replacement of the standard Fortran OPEN and INQUIRE calls). Note that for the majority of data files one uses the XAS file routines (which in turn call these as underlying layer).

file opening assign logical unit free_lu

convert sys to VOS filename z_sys_name

open generic file z_open

open ASCII table open_xas_ascii

error handling VOS errors voserror

Fortran errors z_syserror

file status (INQUIRE) z_inquire zc_stat

file handling delete z_delete_file zc_unlink

rename z_rename_file zc_rename

Data type conversion support

XAS data is kept in native binary format. However some programs must (or are capable to) deal with data in foreign binary format. These routines are used to assist in the conversion.

preliminaries operating system identification z_op_sys blksyscommon

identify required conversion conversion_needed

actual conversion IEEE to VMS and v.v. z_ieee_to_vms z_vms_to_ieee z_dieee_to_vms z_dvms_to_ieee

byte swapping (little-big endian and v.v.) swapi2 swapi4 swapr8

miscellanea unsigned DOUBLE PRECISION udouble

hex formatting hexi4

General string manipulation

string length without trailing blanks	true_length
remove multiple blanks	collapse
smart replacement for `INDEX`	bindex
Case conversion	lowcase upcase
unsupported ?	trimroot

General date and time handling

time conversion	time array to Unix	time_1970
	Unix to time array	time_array
	Unix to string	time_ascii
System times	current time	zc_time
System times	time of login	z_logintime
Unsupported	HPGSPC routines	time_70s2mjd time_a2mjd time_cldj

User interface

These routines are used to enforce the XAS user interface reading from standard input, run string or command file. They shall be used as replacement for the WRITE(*,'prompt') and READ(*,*) Fortran idioms.

Basic routines issue prompt x_prompt

read reply x_read

parse string arrays preparse

Low level routines retrieve and parse run string z_get_command zx_get_parameter blkxrcommon

Unsupported PDS routines x_echo x_echo_error

Environment access

These routines are used to access XAS environment variables. The technical implementation of such variables is system dependent :

on VAX VMS uses naturally DCL global symbols prefixed with XAS_
on Unix uses environment variables prefixed with XAS_ but saves them to a disk file to allow inheritance from child to parent processes.

XAS environment variables are accessed without the XAS_ prefix. The system, searching for var looks first for XAS_var, but falls back to the system variable var if not found (system variables are however readonly for what XAS programs are concerned).

Get variable value get_global_default z_get_global zc_getenv

Set variable value z_set_global zc_putenv

Service routines (Unix) z_aux_envfile
z_initenv

General miscellanea

CURFIT fitting package	curft fchi fder mtinv
interpolation	extrp extrpd interpolate
matrix/vector operations	dotproduct matproduct
Random number generator	ran1
Bit array handling	bit_init_handle

Block data initialization

These BLOCK DATA routines are used/referred to initialize some specific common blocks, described in the include file section.

Binary table descriptors blkbincommon

Current context blkctxcommon

XAS file buffers blkhcommon

for communication channels blkpipecommon

For data conversion blksyscommon

For user interface blkxrcommon

VOS memory allocation

routines are used to allow dynamic memory allocation in f77.

z_alloc z_dealloc zc_alloc zc_free

VOS communication channel support

Communication channels are used to allow interprocess communication, typically for graphics servers. The implementation is system dependent :

on VAX VMS uses mailboxes and Fortran unformatted sequential i/o
on Unix uses named pipes, but differs according to the flavour.
on Ultrix and Digital Unix uses Fortran unformatted sequential i/o
on other Unixes uses a jacket routine to C i/o

create/open/delete channel z_channel zc_mknod z_open_stream zc_fopen

close channel z_close_stream zc_fclose

input/output routines z_read_stream zc_fread z_write_stream zc_fwrite

unsupported z_seek_stream zc_fseek

VOS process control

These routines are used either to control the current process, or to generate a new process.

terminate (replaces Fortran STOP) z_exit

Handle interrupt (control-C) z_break zc_break

Chain another process (overlay) z_run zc_execvp

Schedule process in background (no wait) z_spawn zc_fork

Schedule process with wait z_schedule zc_system

VOS misc high level calls

The VOS library groups all system dependent calls. Those which are not listed elsewhere are listed here, limiting however to the routines which are called by user programs directly.

Error handling voserror

Query functions user name (GECOS and account) z_fullname z_username

hostname z_hostname

time of login z_logintime

terminal name and characteristics z_terminal z_ttyname

Debugging utilities checkerr cpuclk

Unsupported (used by non XAS programs) z_print_file z_tape_open

VOS misc low level calls

These are all C routines and all (with one exception) required on Unix only as underlying layer to the VOS high level calls.

support to query calls zc_cuserid zc_getdomainname zc_gethostname zc_pwnam zc_terminal zc_ttyname

miscellanea zc_dtime zc_memcpy

XAS file support

XAS (mission-independent) format data files are accessed via dedicated routines. We list here the general or generic ones, leaving out those related to tabular files and those used for the (common) XAS file header

Path related routines locate path for file buildpath

strip path from filename depath depath_1

generic XAS file create/open open_new_xas_file open_old_xas_file

close close_xas_file

image format files generic images create_image open_image read_image

Response matrices open_matrix
xasmatout

XAS binary table support

Spectra, time profiles and photon lists are XAS files sharing a common tabular format. The related routines are listed here.

file opening creation of new file create_photon create_spectrum create_time

existing file open_photon open_spectrum open_time

read/write a generic record read_bin write_bin

preliminaries handling table descriptors copy_table_desc get_table_desc set_table_desc

space for dummy columns pad_table

service routines for FITS-like TFORM keywords decodetform leftnumber maketform

XAS file header and keyword handling

All XAS file share a common header format, composed of named binary keywords. There are high level routines to manipulate keywords, and low level service ones.

user routines add and format HISTORY keyword addhistory

add/modify keyword h_add_keyword h_modify_keyword

read keyword value h_read_keyword

copy entire header h_copy_all_header

if file size changed h_update_datasize

service routines point to different file h_current_file

load header from disk h_load_header h_load_minih

flush header to disk h_flush_header
h_flush_minih

Keyword seek support h_find_keyword h_next_keyword

Accumulation : time window management

XAS accumulation program are mission dependent (although this is hidden under a mission-independent interface). They however use a common (mission-independent) concept of time windows, therefore the relevant routines are listed here.

prepare to open time window file init_timewindow

open time window file openwindow

read time window file loadwindow

Attitude handling

These routines are designed in a mission-independent way, but are used only by unofficial programs using celestial coordinates

Determine pointing get detector pointing detpointing

get spacecraft pointing satpointing

get/apply misalignments getmisalign misalign

Eulker matrix to sky coordinates radecroll

Coordinate conversion Pixel to mm and v.v. lintomm unlintomm mmtopix

Sky to pixel and v.v. skytoxy xytosky gnomonic

Graphics server (communication)

A graphics server has to be created, and communication has to be set up over a communication channel from server and client sides.

Connection establishment connectserver

verify channel existence pipeexist

server registration isregistered register
deregister

Xlib interface for X window server f2x

High level graphics

This set of routines correspond to relatively complex graphics functions implemented in graphics clients.

plot annotations (two styles) annotate_new annotate_old

Default arrangements axis frame with annotations df_axes

pen colours df_pen_colours

plotting window and viewport df_viewport df_window

Setup from environment clear screen on overtrace check_overtrace

plot style (solid, error bars etc.) get_datastyle

Axis frames labelling routines lb_axis lb_number lb_tics

various axis styles nice_axes nicer_lin_axes nicer_log_axes

Data array plotting various forms plot_xxy_bar plot_xxy_histo plot_xxy_join plot_xy_join

Low level graphics

These routines are implemented at device independent level and send standard opcodes (with operands) on a communication channel to a graphics server (and eventually receive replies).

Establish communication (or close) y_openplot y_closeplot

set up viewport and window y_clear_viewport y_viewport y_window y_page

reference frame y_coordinates y_scale

look and style y_colour y_text y_width

Plotting primitives vector y_draw y_move y_lines

text y_text

image and 2-d y_fill y_readlut y_write_image y_writelut

graphics input y_get_cursor y_readlut

FOT tape access

There is no intrinsic (system and device-dependent) tape handling in XAS. SAX FOT tapes are dealt with via system-specific shell scripts which are generated based on a template file (which can be customized locally) which contains template commands which are adjusted by the following routines.

service functions load template tapechar

begin and end operations add_init add_end

edit template command edit_cmd

handle specific commands file copy add_file

tape functions add_rew_tape add_skip_tape

FOT (telemetry) data reading

SAX data is in form of (FOT reformatted) telemetry data files, or other auxiliary files assimilated to them. This family of low level routines deals with telemetry records (or events in a record) themselves, and are called at a bottom of a sequence of higher level routines by the accumulation programs.
The low level routine may call a front end correction routine (which in turn calls further instrument specific corrections), and do call an instrument-independent "increment routine" which depends on the XAS data type being accumulated.

basic type switching 1 direct mode data (events)
2 indirect (spectra)
3 Housekeeping sax_acc_bt_1
sax_acc_bt_2
sax_acc_bt_3

specific type handling 1 direct event handling sax_acc_b1s1_i sax_acc_b1s1_y sax_acc_b1s2_i sax_acc_b1s2_y sax_acc_b1s3_y

exposure computation exposure_b1s1 exposure_b1s3 timebin_b1s1

instrument dep. event correction correct

2 indirect sax_acc_b2s1_y

3 Housekeeping sax_acc_b3s1 sax_acc_b3s2 sax_acc_b3s3 sax_acc_b3s4 sax_acc_b3s5 sax_acc_b3s6

instrument directory record decoding rearrange_instrec

Telemetry data reading support

Accumulation program are mission specific, but try to be as mission-independent and instrument-dependent as possible using external packetcap files to describe the content of telemetry packets and dispatching to the above low level routines according to such description.

which packets are available ? check_packet

load packet info mission-independent i/f pktcap_load pktcap_lookup

SAX specific i/f sax_pktcap_load

HK parameter info similar to above sax_pcf_load sax_pcf_lookup

Open files instrument telemetry sax_acc_open_tlm

spacecraft telemetry sax_acc_open_sc_tlm

directory information sax_open_dir

dispatcher to packet specific routines sax_acc_loop

Accumulation program setup (user dialogue)

The accumulation programs must ask the user about the choice of limits for the accumulation, based on the content and layout of telemetry packets, and also perform other initializations.

operator dialogue choose packet type sax_which_data

load packetcap information sax_acc_preload

select fields and ranges sax_acc_select sax_acc_hkrange sax_acc_other_range sax_acc_range

time profile binning askbin asktime

initializations spacecraft to XAS time time_constants_setup get_start_end update_start_end

obaervation chain get_obs_chain

instrument dep. corrections init_correct

XAS keywords in output instr_keywords sax_df_keywords

MECS calibration parameters

SAX MECS specific routines are presented in a detailed breakdown. A first class is represented by the routines accessing calibration parameters, used mainly for response matrix generation, but not only (e.g. they are also used for the WWW MECS guided tour)

Mirror system area_mr psf_mir psf_rad

Windows and filter incl. materials abs_co_be bewin_trasp alum kapton2 lexan poly poly_carbo

Detector components coda cross_sec escape gas_cell spread

MECS matrix generation support

The MECS matrix generation programs (besides the above "physical" routines) includes some specific service routines.

parameter choices blsel ein eout

service computations mecs_arf mecs_rmf multiply_rmfarf tetafi_xy

Output to XAS or OGIP fopen_rmf mecs_matkeywords write_arf write_rmf write_rmf_ebo write_rmf_mat

MECS data accumulation

Data accumulation programs call instrument specific routines for event corrections, or to add instrument specific keywords to the output files.

corrections init_correct_me init_correct_me_fast me_gain_time me_init_map mecscorrect

keywords mecs_keywords

PDS support

PDS support routines have been written at ITESRE and are unsupported by the author of this document. No detail is given so far.

pds_arf pds_ein pds_en_resol pds_matinfo pds_matkeywords pds_matout pds_ogip pds_opnrmf pds_response pds_wrtrmf pds_wrtrmfebo pds_wrtrmfmat pdsmat_coef pdsmat_init pds_freq

init_correct_pds pdscorrect

inst_key_copy inst_key_find inst_key_flush inst_key_load inst_key_mult inst_key_read inst_key_set
instrument_keys no_keyword pds_keywords

pds_fotunits rminmax sax_froot_name xdofit

LECS support

LECS support is unofficial. The routines below were either been written by the author mimicking the MECS arrangement, or were adapted from SSD routines.

adapted from SSD blrng e2fwhm

MECS-style corrections lecscorrect init_correct_le le_gain_time lecs_keywords

HPGSPC support

HPGSPC is partially unofficial supported by the author, mimicking the MECS arrangement. However most of the routines here were written at IFCAI for the original release of HPGSPC software (and their status of support is unknown).

supplied by IFCAI broad2 cofas fuga fuga_1 shell_fact shell_prob winbe
fopen_rmf reader reader_1 write_arf write_rmf_ebo write_rmf_mat
effmed filecorr_read fileinp_read parameter tmed tofits
buf_read config_read julia toqdp

MECS-style corrections init_correct_hp hpcorrect hp_gain_time hp_keywords

[Previous][Next] [Up][Down]

sax.iasf-milano.inaf.it/Xashelp/Prog/lib.html :: original creation 2002 Sep 04 18:22:37 CEST :: last edit 2002 Sep 04 18:22:37 CEST

file opening	assign logical unit	free_lu
	convert sys to VOS filename	z_sys_name
	open generic file	z_open
	open ASCII table	open_xas_ascii
error handling	VOS errors	voserror
error handling	Fortran errors	z_syserror
file status	(INQUIRE)	z_inquire zc_stat
file handling	delete	z_delete_file zc_unlink
file handling	rename	z_rename_file zc_rename

preliminaries	operating system identification	z_op_sys blksyscommon
preliminaries	identify required conversion	conversion_needed
actual conversion	IEEE to VMS and v.v.	z_ieee_to_vms z_vms_to_ieee z_dieee_to_vms z_dvms_to_ieee
actual conversion	byte swapping (little-big endian and v.v.)	swapi2 swapi4 swapr8
miscellanea	unsigned DOUBLE PRECISION	udouble
miscellanea	hex formatting	hexi4

Basic routines	issue prompt	x_prompt
	read reply	x_read
	parse string arrays	preparse
Low level routines	retrieve and parse run string	z_get_command zx_get_parameter blkxrcommon
Unsupported	PDS routines	x_echo x_echo_error

Get variable value	get_global_default z_get_global zc_getenv
Set variable value	z_set_global zc_putenv
Service routines (Unix)	z_aux_envfile z_initenv

Binary table descriptors	blkbincommon
Current context	blkctxcommon
XAS file buffers	blkhcommon
for communication channels	blkpipecommon
For data conversion	blksyscommon
For user interface	blkxrcommon

create/open/delete channel	z_channel zc_mknod z_open_stream zc_fopen
close channel	z_close_stream zc_fclose
input/output routines	z_read_stream zc_fread z_write_stream zc_fwrite
unsupported	z_seek_stream zc_fseek

terminate (replaces Fortran `STOP`)	z_exit
Handle interrupt (control-C)	z_break zc_break
Chain another process (overlay)	z_run zc_execvp
Schedule process in background (no wait)	z_spawn zc_fork
Schedule process with wait	z_schedule zc_system

Error handling		voserror
Query functions	user name (GECOS and account)	z_fullname z_username
	hostname	z_hostname
	time of login	z_logintime
	terminal name and characteristics	z_terminal z_ttyname
Debugging utilities		checkerr cpuclk
Unsupported	(used by non XAS programs)	z_print_file z_tape_open

support to query calls	zc_cuserid zc_getdomainname zc_gethostname zc_pwnam zc_terminal zc_ttyname
miscellanea	zc_dtime zc_memcpy

Path related routines	locate path for file	buildpath
Path related routines	strip path from filename	depath depath_1
generic XAS file	create/open	open_new_xas_file open_old_xas_file
generic XAS file	close	close_xas_file
image format files	generic images	create_image open_image read_image
image format files	Response matrices	open_matrix xasmatout

file opening	creation of new file	create_photon create_spectrum create_time
file opening	existing file	open_photon open_spectrum open_time
read/write	a generic record	read_bin write_bin
preliminaries	handling table descriptors	copy_table_desc get_table_desc set_table_desc
preliminaries	space for dummy columns	pad_table
service routines	for FITS-like `TFORM` keywords	decodetform leftnumber maketform

user routines	add and format HISTORY keyword	addhistory
	add/modify keyword	h_add_keyword h_modify_keyword
	read keyword value	h_read_keyword
	copy entire header	h_copy_all_header
	if file size changed	h_update_datasize
service routines	point to different file	h_current_file
	load header from disk	h_load_header h_load_minih
	flush header to disk	h_flush_header h_flush_minih
	Keyword seek support	h_find_keyword h_next_keyword

prepare to open time window file	init_timewindow
open time window file	openwindow
read time window file	loadwindow

Determine pointing	get detector pointing	detpointing
	get spacecraft pointing	satpointing
	get/apply misalignments	getmisalign misalign
	Eulker matrix to sky coordinates	radecroll
Coordinate conversion	Pixel to mm and v.v.	lintomm unlintomm mmtopix
Coordinate conversion	Sky to pixel and v.v.	skytoxy xytosky gnomonic

Connection	establishment	connectserver
	verify channel existence	pipeexist
	server registration	isregistered register deregister
Xlib interface	for X window server	f2x

plot annotations	(two styles)	annotate_new annotate_old
Default arrangements	axis frame with annotations	df_axes
	pen colours	df_pen_colours
	plotting window and viewport	df_viewport df_window
Setup from environment	clear screen on overtrace	check_overtrace
Setup from environment	plot style (solid, error bars etc.)	get_datastyle
Axis frames	labelling routines	lb_axis lb_number lb_tics
Axis frames	various axis styles	nice_axes nicer_lin_axes nicer_log_axes
Data array plotting	various forms	plot_xxy_bar plot_xxy_histo plot_xxy_join plot_xy_join

Establish communication	(or close)	y_openplot y_closeplot
set up	viewport and window	y_clear_viewport y_viewport y_window y_page
	reference frame	y_coordinates y_scale
	look and style	y_colour y_text y_width
Plotting primitives	vector	y_draw y_move y_lines
	text	y_text
	image and 2-d	y_fill y_readlut y_write_image y_writelut
	graphics input	y_get_cursor y_readlut

service functions	load template	tapechar
	begin and end operations	add_init add_end
	edit template command	edit_cmd
handle specific commands	file copy	add_file
	tape functions	add_rew_tape add_skip_tape

basic type switching	1 direct mode data (events) 2 indirect (spectra) 3 Housekeeping	sax_acc_bt_1 sax_acc_bt_2 sax_acc_bt_3
specific type handling	1 direct event handling	sax_acc_b1s1_i sax_acc_b1s1_y sax_acc_b1s2_i sax_acc_b1s2_y sax_acc_b1s3_y
	exposure computation	exposure_b1s1 exposure_b1s3 timebin_b1s1
	instrument dep. event correction	correct
	2 indirect	sax_acc_b2s1_y
	3 Housekeeping	sax_acc_b3s1 sax_acc_b3s2 sax_acc_b3s3 sax_acc_b3s4 sax_acc_b3s5 sax_acc_b3s6
instrument directory	record decoding	rearrange_instrec

which packets	are available ?	check_packet
load packet info	mission-independent i/f	pktcap_load pktcap_lookup
load packet info	SAX specific i/f	sax_pktcap_load
HK parameter info	similar to above	sax_pcf_load sax_pcf_lookup
Open files	instrument telemetry	sax_acc_open_tlm
	spacecraft telemetry	sax_acc_open_sc_tlm
	directory information	sax_open_dir
dispatcher to	packet specific routines	sax_acc_loop

operator dialogue	choose packet type	sax_which_data
	load packetcap information	sax_acc_preload
	select fields and ranges	sax_acc_select sax_acc_hkrange sax_acc_other_range sax_acc_range
	time profile binning	askbin asktime
initializations	spacecraft to XAS time	time_constants_setup get_start_end update_start_end
	obaervation chain	get_obs_chain
	instrument dep. corrections	init_correct
	XAS keywords in output	instr_keywords sax_df_keywords

Mirror system	area_mr psf_mir psf_rad
Windows and filter incl. materials	abs_co_be bewin_trasp alum kapton2 lexan poly poly_carbo
Detector components	coda cross_sec escape gas_cell spread

parameter choices	blsel ein eout
service computations	mecs_arf mecs_rmf multiply_rmfarf tetafi_xy
Output to XAS or OGIP	fopen_rmf mecs_matkeywords write_arf write_rmf write_rmf_ebo write_rmf_mat

corrections	init_correct_me init_correct_me_fast me_gain_time me_init_map mecscorrect
keywords	mecs_keywords

adapted from SSD	blrng e2fwhm
MECS-style corrections	lecscorrect init_correct_le le_gain_time lecs_keywords

supplied by IFCAI	broad2 cofas fuga fuga_1 shell_fact shell_prob winbe fopen_rmf reader reader_1 write_arf write_rmf_ebo write_rmf_mat effmed filecorr_read fileinp_read parameter tmed tofits buf_read config_read julia toqdp
MECS-style corrections	init_correct_hp hpcorrect hp_gain_time hp_keywords