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//
// GENERATED FILE
//
use super::*;
use f2rust_std::*;
const C05TP0: i32 = 0;
const C05TP1: i32 = (C05TP0 + 1);
const C05TP2: i32 = (C05TP1 + 1);
const C05TP3: i32 = (C05TP2 + 1);
const C05PS0: i32 = 8;
const C05PS1: i32 = 4;
const C05PS2: i32 = 14;
const C05PS3: i32 = 7;
const LBCELL: i32 = -5;
//$Procedure ZZCKCVR5 ( Private --- C-kernel segment coverage, type 05 )
pub fn ZZCKCVR5(
HANDLE: i32,
ARRBEG: i32,
ARREND: i32,
SCHEDL: &mut [f64],
ctx: &mut Context,
) -> f2rust_std::Result<()> {
let mut SCHEDL = DummyArrayMut::new(SCHEDL, LBCELL..);
let mut BEGIN: f64 = 0.0;
let mut BUFFER = StackArray::<f64, 4>::new(1..=4);
let mut FINISH: f64 = 0.0;
let mut START: f64 = 0.0;
let mut TICK: f64 = 0.0;
let mut INTAT: i32 = 0;
let mut INTBEG: i32 = 0;
let mut INVLS: i32 = 0;
let mut LSTINT: i32 = 0;
let mut LSTTIK: i32 = 0;
let mut NDIR: i32 = 0;
let mut NREC: i32 = 0;
let mut RSIZE: i32 = 0;
let mut SUBTYP: i32 = 0;
let mut TICKAT: i32 = 0;
//
// SPICELIB Functions
//
//
// Local Variables
//
//
// Standard SPICE error handling.
//
if spicelib::RETURN(ctx) {
return Ok(());
} else {
spicelib::CHKIN(b"ZZCKCVR5", ctx)?;
}
//
// Get the meta-data associated with this segment that we
// require to produce the schedule.
//
// BUFFER(1) = Subtype Code
// BUFFER(2) = Window Size
// BUFFER(3) = Number of Interpolation Intervals
// BUFFER(4) = Number of Packets
//
spicelib::DAFGDA(HANDLE, (ARREND - 3), ARREND, BUFFER.as_slice_mut(), ctx)?;
SUBTYP = intrinsics::IDNINT(BUFFER[1]);
INVLS = intrinsics::IDNINT(BUFFER[3]);
NREC = intrinsics::IDNINT(BUFFER[4]);
NDIR = ((NREC - 1) / 100);
//
// Compute the packet size. This requires parameters listed
// in the include file 'ck05.inc' and is based on the subtype.
//
if (SUBTYP == C05TP0) {
RSIZE = C05PS0;
} else if (SUBTYP == C05TP1) {
RSIZE = C05PS1;
} else if (SUBTYP == C05TP2) {
RSIZE = C05PS2;
} else if (SUBTYP == C05TP3) {
RSIZE = C05PS3;
} else {
spicelib::SETMSG(b"CK type 5 subtype <#> is not supported.", ctx);
spicelib::ERRINT(b"#", SUBTYP, ctx);
spicelib::SIGERR(b"SPICE(NOTSUPPORTED)", ctx)?;
spicelib::CHKOUT(b"ZZCKCVR5", ctx)?;
return Ok(());
}
//
// Recall that the segment is layed out as:
//
//
// +------------------------------+
// | |
// | Pointing |
// | |
// +------------------------------+
// | |
// | SCLK times |
// | |
// +------------------------+
// | |
// | SCLK directory |
// | |
// +------------------------+
// | |
// | Interval start times |
// | |
// +------------------------+
// | |
// | Start times directory |
// | |
// +------------------------+
// | Seconds per tick |
// +------------------------+
// | Subtype code |
// +------------------------+
// | Window size |
// +------------------------+
// | |
// | Number of intervals |
// | |
// +------------------------+
// | |
// | Number of pointing |
// | instances |
// | |
// +------------------------+
//
TICKAT = (ARRBEG + (RSIZE * NREC));
LSTTIK = ((TICKAT + NREC) - 1);
INTBEG = (((ARRBEG + (RSIZE * NREC)) + NREC) + NDIR);
INTAT = INTBEG;
LSTINT = ((INTBEG + INVLS) - 1);
spicelib::DAFGDA(HANDLE, INTAT, INTAT, std::slice::from_mut(&mut START), ctx)?;
spicelib::DAFGDA(HANDLE, TICKAT, TICKAT, std::slice::from_mut(&mut TICK), ctx)?;
while ((TICK < START) && (TICKAT < LSTTIK)) {
TICKAT = (TICKAT + 1);
spicelib::DAFGDA(HANDLE, TICKAT, TICKAT, std::slice::from_mut(&mut TICK), ctx)?;
}
//
// If we did not find a TICK at least as big as START, we can
// just return now.
//
if (TICK < START) {
spicelib::CHKOUT(b"ZZCKCVR5", ctx)?;
return Ok(());
}
while ((INTAT <= LSTINT) && (TICKAT <= LSTTIK)) {
//
// At this point, we have an interval that begins at START
// and ends at FINISH (unless of course we never found a "good"
// TICK to start with.)
//
BEGIN = START;
//
// If the the start of the interval was the start of the LAST
// interval available, we can short cut the remainder of the
// reads.
//
if (INTAT == LSTINT) {
spicelib::DAFGDA(
HANDLE,
LSTTIK,
LSTTIK,
std::slice::from_mut(&mut FINISH),
ctx,
)?;
spicelib::WNINSD(START, FINISH, SCHEDL.as_slice_mut(), ctx)?;
spicelib::CHKOUT(b"ZZCKCVR5", ctx)?;
return Ok(());
}
//
// This is the expected case. Get the start of the next
// interval.
//
INTAT = (INTAT + 1);
spicelib::DAFGDA(HANDLE, INTAT, INTAT, std::slice::from_mut(&mut START), ctx)?;
//
// Read forward from the last tick until we reach the
// START of the next interval or until we run out of TICKS.
//
while ((TICK < START) && (TICKAT < LSTTIK)) {
FINISH = TICK;
TICKAT = (TICKAT + 1);
spicelib::DAFGDA(HANDLE, TICKAT, TICKAT, std::slice::from_mut(&mut TICK), ctx)?;
}
//
// A structurally correct CK-5 segment should never allow
// the next test to pass, but it's just easier to check than
// police the writers of C-kernels. The only way to get into
// the block below is if TICKAT .EQ. LSTTIK
//
if (TICK < START) {
FINISH = TICK;
TICKAT = (TICKAT + 1);
}
//
// Insert the interval into the window.
//
spicelib::WNINSD(BEGIN, FINISH, SCHEDL.as_slice_mut(), ctx)?;
}
spicelib::CHKOUT(b"ZZCKCVR5", ctx)?;
Ok(())
}