path: root/dimension/client.py.in

#!/usr/bin/env python3

#########################################################################
# Copyright (C) 2011-2012 Tavian Barnes <tavianator@tavianator.com>     #
#                                                                       #
# This file is part of Dimension.                                       #
#                                                                       #
# Dimension is free software; you can redistribute it and/or modify it  #
# under the terms of the GNU General Public License as published by the #
# Free Software Foundation; either version 3 of the License, or (at     #
# your option) any later version.                                       #
#                                                                       #
# Dimension is distributed in the hope that it will be useful, but      #
# WITHOUT ANY WARRANTY; without even the implied warranty of            #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU     #
# General Public License for more details.                              #
#                                                                       #
# You should have received a copy of the GNU General Public License     #
# along with this program.  If not, see <http://www.gnu.org/licenses/>. #
#########################################################################

import argparse
import re
import os
import sys
import threading
from contextlib import contextmanager
from dimension import *

def main():
  """Invoke the client from the command line."""

  # Parse the command line
  parser = DimensionArgumentParser(
    epilog = "@PACKAGE_STRING@\n"
             "@PACKAGE_URL@\n"
             "Copyright (C) 2009-2011 Tavian Barnes <@PACKAGE_BUGREPORT@>\n"
             "Licensed under the GNU General Public License",
    formatter_class = argparse.RawDescriptionHelpFormatter,
    conflict_handler = "resolve", # For -h as height instead of help
  )

  parser.add_argument("-V", "--version", action = "version",
                      version = "@PACKAGE_STRING@")

  parser.add_argument("-w", "--width", action = "store", type = int,
                      default = 768,
                      help = "image width (default: %(default)s)")
  parser.add_argument("-h", "--height", action = "store", type = int,
                      default = 480,
                      help = "image height (default: %(default)s)")
  parser.add_argument("--region", action = "store", type = str,
                      help = "subregion to render, as \"(x1, y1)->(x2, y2)\"")

  parser.add_argument("-v", "--verbose", action = "store_true",
                      help = "print more information")
  parser.add_argument("-q", "--quiet", action = "store_true",
                      help = "print less information")

  parser.add_argument("--threads", action = "store", type = int,
                      help = "the number of threads to render with")
  parser.add_argument("--quality", action = "store", type = str,
                      help = "the scene quality")
  parser.add_argument("--adc-bailout", action = "store", type = str,
                      help = "the ADC bailout (default: 1/255)")

  parser.add_argument("-o", "--output", action = "store", type = str,
                      help = "the output image file")
  parser.add_argument("input", action = "store", type = str,
                      help = "the input scene description file")

  parser.add_argument("-p", "--preview", action = "store_true",
                      help = "display a preview while the image renders")

  # Debugging/testing options
  parser.add_argument("--strict", action = "store_true",
                      help = argparse.SUPPRESS)

  args = parser.parse_args()

  # Calculate subregion
  calculate_subregion(args)

  # Default output is basename(input).png
  if args.output is None:
    noext = os.path.splitext(os.path.basename(args.input))[0]
    args.output = noext + ".png"

  # Handle the --strict option
  die_on_warnings(args.strict)

  # Sandbox dictionary for the scene
  sandbox = { }
  sandbox.update(__import__("dimension").__dict__)
  sandbox.update(__import__("math").__dict__)

  # Defaults/available variables
  sandbox.update({
    "image_width"      : args.width,
    "image_height"     : args.height,
    "objects"          : [],
    "lights"           : [],
    "camera"           : PerspectiveCamera(),
    "default_texture"  : Texture(finish = Ambient(sRGB(0.1))
                                          + Diffuse(sRGB(0.7))),
    "default_interior" : Interior(),
    "background"       : Black,
    "recursion_limit"  : None,
  })

  # Execute the input script
  if not args.quiet:
    print("Parsing scene ...")

  # Run with the script's dirname as the working directory
  workdir = os.path.dirname(os.path.abspath(args.input))

  parse_timer = Timer()
  with open(args.input) as fh, working_directory(workdir):
    exec(compile(fh.read(), args.input, "exec"), sandbox)
  parse_timer.stop()

  # Make the canvas
  canvas = Canvas(width = args.region_width, height = args.region_height)
  canvas.optimize_PNG()
  if args.preview:
    canvas.optimize_GL()

  # Make the scene object
  scene = Scene(canvas   = canvas,
                objects  = sandbox["objects"],
                lights   = sandbox["lights"],
                camera   = sandbox["camera"])
  scene.region_x         = args.region_x
  scene.region_y         = args.region_y
  scene.outer_width      = args.width
  scene.outer_height     = args.height
  scene.default_texture  = sandbox["default_texture"]
  scene.default_interior = sandbox["default_interior"]
  scene.background       = sandbox["background"]
  if sandbox["recursion_limit"] is not None:
    scene.recursion_limit = sandbox["recursion_limit"]
  if args.threads is not None:
    scene.nthreads = args.threads
  if args.quality is not None:
    scene.quality = args.quality
  if args.adc_bailout is not None:
    pattern = r"^(.*)/(.*)$"
    match = re.match(pattern, args.adc_bailout)
    if match is not None:
      args.adc_bailout = float(match.group(1))/float(match.group(2))
    scene.adc_bailout = float(args.adc_bailout)

  # Ray-trace the scene
  with scene.ray_trace_async() as future:
    bar = None
    if not args.quiet:
      if scene.nthreads == 1:
        render_message = "Rendering scene"
      else:
        render_message = "Rendering scene (using %d threads)" % scene.nthreads
      bar = progress_bar_async(render_message, future)
    if args.preview:
      from dimension import preview
      preview.show_preview(canvas, future)
    if bar is not None:
      join_progress_bar(bar)

  # Write the output file
  export_timer = Timer()
  with canvas.write_PNG_async(args.output) as future:
    if not args.quiet:
      progress_bar("Writing %s" % args.output, future)
  export_timer.stop()

  # Print execution times
  if args.verbose:
    print()
    print("Parsing time:   ", parse_timer)
    print("Bounding time:  ", scene.bounding_timer)
    print("Rendering time: ", scene.render_timer)
    print("Exporting time: ", export_timer)

class DimensionArgumentParser(argparse.ArgumentParser):
  """
  Specialized parser to print --version output to stdout rather than stderr.
  """
  def exit(self, status = 0, message = None):
    if message:
      file = sys.stdout if status == 0 else sys.stderr
      file.write(message)
    sys.exit(status)

def calculate_subregion(args):
  if args.region is None:
    args.region_x = 0
    args.region_y = 0
    args.region_width = args.width
    args.region_height = args.height
  else:
    pattern = r"^\s*\(\s*(\d*)\s*,\s*(\d*)\s*\)\s*->\s*\(\s*(\d*)\s*,\s*(\d*)\s*\)\s*$"
    match = re.match(pattern, args.region)
    if match is None:
      raise RuntimeError("range specified in invalid format.")
    args.region_x = int(match.group(1))
    args.region_y = int(match.group(2))
    region_xmax = int(match.group(3))
    region_ymax = int(match.group(4))
    args.region_width = region_xmax - args.region_x
    args.region_height = region_ymax - args.region_y
    if args.region_width <= 0 or args.region_height <= 0:
      raise RuntimeError("region is degenerate.")
    if region_xmax >= args.width or region_ymax > args.height:
      raise RuntimeError("region exceeds bounds of image.")

@contextmanager
def working_directory(newwd):
  """Change the working directory within a with statement."""
  oldwd = os.getcwd()
  try:
    os.chdir(newwd)
    yield
  finally:
    os.chdir(oldwd)

def progress_bar(str, future):
  """Display a progress bar while a Future completes."""
  print(str, end = " ")
  sys.stdout.flush()

  term_width = terminal_width()
  width = term_width - (len(str) + 1)%term_width
  for i in range(width):
    future.wait((i + 1)/width)
    print(".", end = "")
    sys.stdout.flush()

  print()
  sys.stdout.flush()

def progress_bar_async(str, future):
  thread = threading.Thread(target = progress_bar, args = (str, future))
  thread.start()
  return (thread, future)

def join_progress_bar(bar):
  """Handle joining a progress bar thread in a way responsive to ^C."""
  thread = bar[0]
  future = bar[1]
  try:
    thread.join()
  except:
    future.cancel()
    thread.join()
    raise