serversdown/terra-view
1
0
Fork 0
Code Issues 16 Pull Requests Actions Packages Projects Releases 4 Wiki Activity
Files
2b8e9168c3bb66b148e9b2a91cb7c7f9a311f312
terra-view/backend/services/deployment_history.py
T
serversdown 2b8e9168c3 feat(tools): add Gantt view tab to deployment-history page 
The Calendar grid (day-cells with project bars) is great for seeing
which projects had activity on a given day, but bad for seeing how
long any single deployment lasted.  The Gantt view inverts that —
one row per project, horizontal bars per assignment window — so an
operator can read durations at a glance.

Service layer
- backend/services/deployment_history.py extends each project's
  payload with `bars`: a list of {unit_id, location_id, location_name,
  start, end, is_active, source} for every UnitAssignment clipped to
  the visible 12-month window.  Location names are batch-resolved.
  Same cost as before since the underlying assignment scan is the
  same; just additional data in the response.

Template
- Tab switcher at the top of /tools/deployment-history toggles
  between Calendar and Gantt views.  URL hash (#gantt) preserves the
  active view across month-nav (Prev / Next / Recent buttons within
  the Gantt view link to ?...#gantt to stay on the same tab).
- Gantt view is a plain SVG with:
    - Left 220px label gutter: project color dot + truncated name,
      whole row clickable → opens the project page
    - Right area: horizontal time axis with month gridlines + labels,
      "today" dashed orange line, one row per project
    - One bar per assignment in that row, colored by project, reduced
      opacity for closed assignments, blue outline for metadata-
      backfilled assignments, white tip on the right edge of active
      bars
    - Hover any bar → tooltip with unit + location + window
- Alternating row backgrounds for readability.

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-05-15 22:55:21 +00:00

345 lines
13 KiB
Python
Raw Blame History

This file contains ambiguous Unicode characters
This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.
"""
Deployment-history calendar service — builds the data structure for the
fleet-wide deployment-history grid (`/tools/deployment-history`).
For each calendar day in a 12-month window, computes which projects had
at least one unit assigned to a location on that day. Renders as
multi-month grid (job-planner style) with project-colored bars per day.
Distinct from `services/fleet_calendar_service.py` which renders
forward-looking RESERVATIONS for the planner. This one is purely
historical / current — it walks `unit_assignments` instead of
`job_reservations`.
"""
from __future__ import annotations
import hashlib
from datetime import date, datetime, timedelta
from calendar import monthrange
from typing import Optional
from sqlalchemy.orm import Session
from sqlalchemy import and_, or_
from backend.models import Project, UnitAssignment
# Color palette for projects without an explicit color attribute. Chosen
# to have decent contrast on both light and dark backgrounds; cycles
# deterministically by SHA1(project_id).
_PROJECT_COLOR_PALETTE = [
"#f48b1c", "#142a66", "#7d234d", "#0e7490", "#15803d",
"#a16207", "#9333ea", "#dc2626", "#0d9488", "#1d4ed8",
"#be185d", "#65a30d", "#0891b2", "#7c3aed", "#b91c1c",
]
def _color_for_project(project_id: str) -> str:
"""Deterministic color assignment from a fixed palette."""
h = hashlib.sha1(project_id.encode("utf-8")).digest()[0]
return _PROJECT_COLOR_PALETTE[h % len(_PROJECT_COLOR_PALETTE)]
def _month_short(m: int) -> str:
return ["Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec"][m - 1]
def _month_full(m: int) -> str:
return ["January", "February", "March", "April", "May", "June",
"July", "August", "September", "October", "November", "December"][m - 1]
def get_deployment_history_data(
db: Session,
start_year: int,
start_month: int,
) -> dict:
"""
Build the calendar data structure for a 12-month window starting at
(start_year, start_month).
Returns:
{
"months": [
{
"year": int,
"month": int, # 1-12
"name": "January",
"short_name": "Jan",
"year_short": "26",
"num_days": int,
"first_weekday": int, # 0=Mon..6=Sun (datetime.weekday())
"active_days": {
day_num: [project_id, project_id, ...] # projects with
# ≥1 active assignment
# on that day
},
},
... # 12 entries
],
"projects": [
{
"id": str,
"name": str,
"color": str,
"status": str,
"client_name": str | None,
"assignment_count": int, # total assignments contributing to
# this 12-month window
"first_active": "YYYY-MM-DD" | None,
"last_active": "YYYY-MM-DD" | None,
},
... # only projects with
# ≥1 assignment in the
# window, sorted by
# first_active ASC
],
"total_assignments": int,
"total_active_units": int, # distinct unit_ids across the window
"window": {
"start_year": int,
"start_month": int,
"end_year": int,
"end_month": int,
"first_date": "YYYY-MM-DD",
"last_date": "YYYY-MM-DD",
},
}
"""
# Compute window edges.
first_date = date(start_year, start_month, 1)
# 12 months → end on day-1 of (start + 12)
end_year = start_year + ((start_month + 10) // 12)
end_month = ((start_month + 10) % 12) + 1
last_date = date(end_year, end_month, monthrange(end_year, end_month)[1])
now = datetime.utcnow()
# Fetch every assignment that overlaps the window. An assignment
# overlaps if assigned_at <= last_date AND (assigned_until is NULL
# OR assigned_until >= first_date).
assignments = (
db.query(UnitAssignment)
.filter(UnitAssignment.assigned_at <= datetime.combine(last_date, datetime.max.time()))
.filter(
or_(
UnitAssignment.assigned_until == None, # noqa: E711 — active
UnitAssignment.assigned_until >= datetime.combine(first_date, datetime.min.time()),
)
)
.all()
)
# Resolve referenced projects in one query.
proj_ids = {a.project_id for a in assignments}
proj_map = {
p.id: p for p in db.query(Project).filter(Project.id.in_(proj_ids)).all()
} if proj_ids else {}
# Resolve location names in one batch query (used by the Gantt view
# for per-bar tooltips).
from backend.models import MonitoringLocation
loc_ids = {a.location_id for a in assignments}
loc_name_map = {
l.id: l.name for l in db.query(MonitoringLocation).filter(
MonitoringLocation.id.in_(loc_ids)
).all()
} if loc_ids else {}
# Compute "active days per project" by walking each assignment and
# adding every day in its [start, end] ∩ [first_date, last_date].
# O(N_assignments × avg_window_days); for a typical fleet this is
# bounded (hundreds of assignments × hundreds of days = manageable).
# Also collect raw per-assignment bar data for the Gantt view.
project_active_days: dict[str, set[date]] = {}
project_first_active: dict[str, date] = {}
project_last_active: dict[str, date] = {}
project_assignment_count: dict[str, int] = {}
project_bars: dict[str, list[dict]] = {}
distinct_units: set[str] = set()
for a in assignments:
start = max(a.assigned_at.date() if a.assigned_at else first_date, first_date)
end_dt = a.assigned_until or now
end = min(end_dt.date(), last_date)
if end < start:
continue
days = project_active_days.setdefault(a.project_id, set())
d = start
while d <= end:
days.add(d)
d += timedelta(days=1)
project_assignment_count[a.project_id] = project_assignment_count.get(a.project_id, 0) + 1
distinct_units.add(a.unit_id)
# Track first/last active dates in the window.
prev_first = project_first_active.get(a.project_id)
if prev_first is None or start < prev_first:
project_first_active[a.project_id] = start
prev_last = project_last_active.get(a.project_id)
if prev_last is None or end > prev_last:
project_last_active[a.project_id] = end
# Per-assignment bar data — used by the Gantt view's renderer.
# `is_active` reflects whether the assignment_until was still NULL
# at fetch time (open-ended deployment); the clipped `end` here
# is just for visual bar drawing.
project_bars.setdefault(a.project_id, []).append({
"unit_id": a.unit_id,
"location_id": a.location_id,
"location_name": loc_name_map.get(a.location_id, "(unknown location)"),
"start": start.isoformat(),
"end": end.isoformat(),
"is_active": a.assigned_until is None,
"source": a.source,
})
# Build the projects array (sorted by first_active ascending so the
# legend reads in deployment-order).
projects_data = []
for pid, days in project_active_days.items():
p = proj_map.get(pid)
if not p:
# Assignment references a deleted project — surface it anyway
# with a placeholder name, since the bars still need a label.
projects_data.append({
"id": pid,
"name": "(deleted project)",
"color": _color_for_project(pid),
"status": "deleted",
"client_name": None,
"assignment_count": project_assignment_count.get(pid, 0),
"first_active": project_first_active[pid].isoformat() if pid in project_first_active else None,
"last_active": project_last_active[pid].isoformat() if pid in project_last_active else None,
"bars": project_bars.get(pid, []),
})
continue
projects_data.append({
"id": pid,
"name": p.name,
"color": _color_for_project(pid),
"status": p.status or "active",
"client_name": p.client_name,
"assignment_count": project_assignment_count.get(pid, 0),
"first_active": project_first_active[pid].isoformat() if pid in project_first_active else None,
"last_active": project_last_active[pid].isoformat() if pid in project_last_active else None,
"bars": project_bars.get(pid, []),
})
projects_data.sort(key=lambda p: (p["first_active"] or "9999", p["name"]))
# Now build the months array.
months_data = []
cur_year, cur_month = start_year, start_month
for _ in range(12):
num_days = monthrange(cur_year, cur_month)[1]
first_weekday = date(cur_year, cur_month, 1).weekday() # 0=Mon..6=Sun
active_days: dict[int, list[str]] = {}
for day_num in range(1, num_days + 1):
d = date(cur_year, cur_month, day_num)
day_projects = [
pid for pid, days in project_active_days.items()
if d in days
]
if day_projects:
# Sort by the project's color-stable order so bars don't
# jitter between days.
day_projects.sort()
active_days[day_num] = day_projects
months_data.append({
"year": cur_year,
"month": cur_month,
"name": _month_full(cur_month),
"short_name": _month_short(cur_month),
"year_short": f"{cur_year % 100:02d}",
"num_days": num_days,
"first_weekday": first_weekday,
"active_days": active_days,
})
# Advance one month.
if cur_month == 12:
cur_year += 1
cur_month = 1
else:
cur_month += 1
return {
"months": months_data,
"projects": projects_data,
"total_assignments": len(assignments),
"total_active_units": len(distinct_units),
"window": {
"start_year": start_year,
"start_month": start_month,
"end_year": end_year,
"end_month": end_month,
"first_date": first_date.isoformat(),
"last_date": last_date.isoformat(),
},
}
def get_deployments_on_day(
db: Session,
target_date: date,
) -> list[dict]:
"""
Return the list of (unit, location, project) tuples that were
actively assigned on a specific calendar date. Used for the
day-detail side panel when an operator clicks a day cell.
"""
from backend.models import MonitoringLocation, RosterUnit
day_start = datetime.combine(target_date, datetime.min.time())
day_end = datetime.combine(target_date, datetime.max.time())
rows = (
db.query(UnitAssignment)
.filter(UnitAssignment.assigned_at <= day_end)
.filter(
or_(
UnitAssignment.assigned_until == None, # noqa: E711
UnitAssignment.assigned_until >= day_start,
)
)
.order_by(UnitAssignment.project_id, UnitAssignment.unit_id)
.all()
)
if not rows:
return []
loc_ids = {a.location_id for a in rows}
proj_ids = {a.project_id for a in rows}
loc_map = {
l.id: l for l in db.query(MonitoringLocation).filter(
MonitoringLocation.id.in_(loc_ids)
).all()
}
proj_map = {
p.id: p for p in db.query(Project).filter(
Project.id.in_(proj_ids)
).all()
}
results = []
for a in rows:
loc = loc_map.get(a.location_id)
proj = proj_map.get(a.project_id)
results.append({
"assignment_id": a.id,
"unit_id": a.unit_id,
"location_id": a.location_id,
"location_name": loc.name if loc else "(unknown location)",
"project_id": a.project_id,
"project_name": proj.name if proj else "(deleted project)",
"project_color": _color_for_project(a.project_id),
"assigned_at": a.assigned_at.isoformat() if a.assigned_at else None,
"assigned_until": a.assigned_until.isoformat() if a.assigned_until else None,
"is_active": a.assigned_until is None,
"source": a.source,
})
return results
Reference in New Issue View Git Blame Copy Permalink