client/virt/ppm_utils.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 """
 Utility functions to deal with ppm (qemu screendump format) files.

 @copyright: Red Hat 2008-2009
 """

 import os, struct, time, re
 from autotest_lib.client.bin import utils

 # Some directory/filename utils, for consistency

 def find_id_for_screendump(md5sum, dir):
     """
     Search dir for a PPM file whose name ends with md5sum.

     @param md5sum: md5 sum string
     @param dir: Directory that holds the PPM files.
     @return: The file's basename without any preceding path, e.g.
     '20080101_120000_d41d8cd98f00b204e9800998ecf8427e.ppm'.
     """
     try:
         files = os.listdir(dir)
     except OSError:
         files = []
     for file in files:
         exp = re.compile(r"(.*_)?" + md5sum + r"\.ppm", re.IGNORECASE)
         if exp.match(file):
             return file


 def generate_id_for_screendump(md5sum, dir):
     """
     Generate a unique filename using the given MD5 sum.

     @return: Only the file basename, without any preceding path. The
     filename consists of the current date and time, the MD5 sum and a .ppm
     extension, e.g. '20080101_120000_d41d8cd98f00b204e9800998ecf8427e.ppm'.
     """
     filename = time.strftime("%Y%m%d_%H%M%S") + "_" + md5sum + ".ppm"
     return filename


 def get_data_dir(steps_filename):
     """
     Return the data dir of the given steps filename.
     """
     filename = os.path.basename(steps_filename)
     return os.path.join(os.path.dirname(steps_filename), "..", "steps_data",
                         filename + "_data")


 # Functions for working with PPM files

 def image_read_from_ppm_file(filename):
     """
     Read a PPM image.

     @return: A 3 element tuple containing the width, height and data of the
             image.
     """
     fin = open(filename,"rb")
     l1 = fin.readline()
     l2 = fin.readline()
     l3 = fin.readline()
     data = fin.read()
     fin.close()

     (w, h) = map(int, l2.split())
     return (w, h, data)


 def image_write_to_ppm_file(filename, width, height, data):
     """
     Write a PPM image with the given width, height and data.

     @param filename: PPM file path
     @param width: PPM file width (pixels)
     @param height: PPM file height (pixels)
     """
     fout = open(filename,"wb")
     fout.write("P6\n")
     fout.write("%d %d\n" % (width, height))
     fout.write("255\n")
     fout.write(data)
     fout.close()


 def image_crop(width, height, data, x1, y1, dx, dy):
     """
     Crop an image.

     @param width: Original image width
     @param height: Original image height
     @param data: Image data
     @param x1: Desired x coordinate of the cropped region
     @param y1: Desired y coordinate of the cropped region
     @param dx: Desired width of the cropped region
     @param dy: Desired height of the cropped region
     @return: A 3-tuple containing the width, height and data of the
     cropped image.
     """
     if x1 > width - 1: x1 = width - 1
     if y1 > height - 1: y1 = height - 1
     if dx > width - x1: dx = width - x1
     if dy > height - y1: dy = height - y1
     newdata = ""
     index = (x1 + y1*width) * 3
     for i in range(dy):
         newdata += data[index:(index+dx*3)]
         index += width*3
     return (dx, dy, newdata)


 def image_md5sum(width, height, data):
     """
     Return the md5sum of an image.

     @param width: PPM file width
     @param height: PPM file height
     @data: PPM file data
     """
     header = "P6\n%d %d\n255\n" % (width, height)
     hash = utils.hash('md5', header)
     hash.update(data)
     return hash.hexdigest()


 def get_region_md5sum(width, height, data, x1, y1, dx, dy,
                       cropped_image_filename=None):
     """
     Return the md5sum of a cropped region.

     @param width: Original image width
     @param height: Original image height
     @param data: Image data
     @param x1: Desired x coord of the cropped region
     @param y1: Desired y coord of the cropped region
     @param dx: Desired width of the cropped region
     @param dy: Desired height of the cropped region
     @param cropped_image_filename: if not None, write the resulting cropped
             image to a file with this name
     """
     (cw, ch, cdata) = image_crop(width, height, data, x1, y1, dx, dy)
     # Write cropped image for debugging
     if cropped_image_filename:
         image_write_to_ppm_file(cropped_image_filename, cw, ch, cdata)
     return image_md5sum(cw, ch, cdata)


 def image_verify_ppm_file(filename):
     """
     Verify the validity of a PPM file.

     @param filename: Path of the file being verified.
     @return: True if filename is a valid PPM image file. This function
     reads only the first few bytes of the file so it should be rather fast.
     """
     try:
         size = os.path.getsize(filename)
         fin = open(filename, "rb")
         assert(fin.readline().strip() == "P6")
         (width, height) = map(int, fin.readline().split())
         assert(width > 0 and height > 0)
         assert(fin.readline().strip() == "255")
         size_read = fin.tell()
         fin.close()
         assert(size - size_read == width*height*3)
         return True
     except:
         return False


 def image_comparison(width, height, data1, data2):
     """
     Generate a green-red comparison image from two given images.

     @param width: Width of both images
     @param height: Height of both images
     @param data1: Data of first image
     @param data2: Data of second image
     @return: A 3-element tuple containing the width, height and data of the
             generated comparison image.

     @note: Input images must be the same size.
     """
     newdata = ""
     i = 0
     while i < width*height*3:
         # Compute monochromatic value of current pixel in data1
         pixel1_str = data1[i:i+3]
         temp = struct.unpack("BBB", pixel1_str)
         value1 = int((temp[0] + temp[1] + temp[2]) / 3)
         # Compute monochromatic value of current pixel in data2
         pixel2_str = data2[i:i+3]
         temp = struct.unpack("BBB", pixel2_str)
         value2 = int((temp[0] + temp[1] + temp[2]) / 3)
         # Compute average of the two values
         value = int((value1 + value2) / 2)
         # Scale value to the upper half of the range [0, 255]
         value = 128 + value / 2
         # Compare pixels
         if pixel1_str == pixel2_str:
             # Equal -- give the pixel a greenish hue
             newpixel = [0, value, 0]
         else:
             # Not equal -- give the pixel a reddish hue
             newpixel = [value, 0, 0]
         newdata += struct.pack("BBB", newpixel[0], newpixel[1], newpixel[2])
         i += 3
     return (width, height, newdata)


 def image_fuzzy_compare(width, height, data1, data2):
     """
     Return the degree of equality of two given images.

     @param width: Width of both images
     @param height: Height of both images
     @param data1: Data of first image
     @param data2: Data of second image
     @return: Ratio equal_pixel_count / total_pixel_count.

     @note: Input images must be the same size.
     """
     equal = 0.0
     different = 0.0
     i = 0
     while i < width*height*3:
         pixel1_str = data1[i:i+3]
         pixel2_str = data2[i:i+3]
         # Compare pixels
         if pixel1_str == pixel2_str:
             equal += 1.0
         else:
             different += 1.0
         i += 3
     return equal / (equal + different)
	"""
	Utility functions to deal with ppm (qemu screendump format) files.

	@copyright: Red Hat 2008-2009
	"""

	import os, struct, time, re
	from autotest_lib.client.bin import utils

	# Some directory/filename utils, for consistency

	def find_id_for_screendump(md5sum, dir):
	"""
	Search dir for a PPM file whose name ends with md5sum.

	@param md5sum: md5 sum string
	@param dir: Directory that holds the PPM files.
	@return: The file's basename without any preceding path, e.g.
	'20080101_120000_d41d8cd98f00b204e9800998ecf8427e.ppm'.
	"""
	try:
	files = os.listdir(dir)
	except OSError:
	files = []
	for file in files:
	exp = re.compile(r"(.*_)?" + md5sum + r"\.ppm", re.IGNORECASE)
	if exp.match(file):
	return file


	def generate_id_for_screendump(md5sum, dir):
	"""
	Generate a unique filename using the given MD5 sum.

	@return: Only the file basename, without any preceding path. The
	filename consists of the current date and time, the MD5 sum and a .ppm
	extension, e.g. '20080101_120000_d41d8cd98f00b204e9800998ecf8427e.ppm'.
	"""
	filename = time.strftime("%Y%m%d_%H%M%S") + "_" + md5sum + ".ppm"
	return filename


	def get_data_dir(steps_filename):
	"""
	Return the data dir of the given steps filename.
	"""
	filename = os.path.basename(steps_filename)
	return os.path.join(os.path.dirname(steps_filename), "..", "steps_data",
	filename + "_data")


	# Functions for working with PPM files

	def image_read_from_ppm_file(filename):
	"""
	Read a PPM image.

	@return: A 3 element tuple containing the width, height and data of the
	image.
	"""
	fin = open(filename,"rb")
	l1 = fin.readline()
	l2 = fin.readline()
	l3 = fin.readline()
	data = fin.read()
	fin.close()

	(w, h) = map(int, l2.split())
	return (w, h, data)


	def image_write_to_ppm_file(filename, width, height, data):
	"""
	Write a PPM image with the given width, height and data.

	@param filename: PPM file path
	@param width: PPM file width (pixels)
	@param height: PPM file height (pixels)
	"""
	fout = open(filename,"wb")
	fout.write("P6\n")
	fout.write("%d %d\n" % (width, height))
	fout.write("255\n")
	fout.write(data)
	fout.close()


	def image_crop(width, height, data, x1, y1, dx, dy):
	"""
	Crop an image.

	@param width: Original image width
	@param height: Original image height
	@param data: Image data
	@param x1: Desired x coordinate of the cropped region
	@param y1: Desired y coordinate of the cropped region
	@param dx: Desired width of the cropped region
	@param dy: Desired height of the cropped region
	@return: A 3-tuple containing the width, height and data of the
	cropped image.
	"""
	if x1 > width - 1: x1 = width - 1
	if y1 > height - 1: y1 = height - 1
	if dx > width - x1: dx = width - x1
	if dy > height - y1: dy = height - y1
	newdata = ""
	index = (x1 + y1width) 3
	for i in range(dy):
	newdata += data[index:(index+dx*3)]
	index += width*3
	return (dx, dy, newdata)


	def image_md5sum(width, height, data):
	"""
	Return the md5sum of an image.

	@param width: PPM file width
	@param height: PPM file height
	@data: PPM file data
	"""
	header = "P6\n%d %d\n255\n" % (width, height)
	hash = utils.hash('md5', header)
	hash.update(data)
	return hash.hexdigest()


	def get_region_md5sum(width, height, data, x1, y1, dx, dy,
	cropped_image_filename=None):
	"""
	Return the md5sum of a cropped region.

	@param width: Original image width
	@param height: Original image height
	@param data: Image data
	@param x1: Desired x coord of the cropped region
	@param y1: Desired y coord of the cropped region
	@param dx: Desired width of the cropped region
	@param dy: Desired height of the cropped region
	@param cropped_image_filename: if not None, write the resulting cropped
	image to a file with this name
	"""
	(cw, ch, cdata) = image_crop(width, height, data, x1, y1, dx, dy)
	# Write cropped image for debugging
	if cropped_image_filename:
	image_write_to_ppm_file(cropped_image_filename, cw, ch, cdata)
	return image_md5sum(cw, ch, cdata)


	def image_verify_ppm_file(filename):
	"""
	Verify the validity of a PPM file.

	@param filename: Path of the file being verified.
	@return: True if filename is a valid PPM image file. This function
	reads only the first few bytes of the file so it should be rather fast.
	"""
	try:
	size = os.path.getsize(filename)
	fin = open(filename, "rb")
	assert(fin.readline().strip() == "P6")
	(width, height) = map(int, fin.readline().split())
	assert(width > 0 and height > 0)
	assert(fin.readline().strip() == "255")
	size_read = fin.tell()
	fin.close()
	assert(size - size_read == widthheight3)
	return True
	except:
	return False


	def image_comparison(width, height, data1, data2):
	"""
	Generate a green-red comparison image from two given images.

	@param width: Width of both images
	@param height: Height of both images
	@param data1: Data of first image
	@param data2: Data of second image
	@return: A 3-element tuple containing the width, height and data of the
	generated comparison image.

	@note: Input images must be the same size.
	"""
	newdata = ""
	i = 0
	while i < widthheight3:
	# Compute monochromatic value of current pixel in data1
	pixel1_str = data1[i:i+3]
	temp = struct.unpack("BBB", pixel1_str)
	value1 = int((temp[0] + temp[1] + temp[2]) / 3)
	# Compute monochromatic value of current pixel in data2
	pixel2_str = data2[i:i+3]
	temp = struct.unpack("BBB", pixel2_str)
	value2 = int((temp[0] + temp[1] + temp[2]) / 3)
	# Compute average of the two values
	value = int((value1 + value2) / 2)
	# Scale value to the upper half of the range [0, 255]
	value = 128 + value / 2
	# Compare pixels
	if pixel1_str == pixel2_str:
	# Equal -- give the pixel a greenish hue
	newpixel = [0, value, 0]
	else:
	# Not equal -- give the pixel a reddish hue
	newpixel = [value, 0, 0]
	newdata += struct.pack("BBB", newpixel[0], newpixel[1], newpixel[2])
	i += 3
	return (width, height, newdata)


	def image_fuzzy_compare(width, height, data1, data2):
	"""
	Return the degree of equality of two given images.

	@param width: Width of both images
	@param height: Height of both images
	@param data1: Data of first image
	@param data2: Data of second image
	@return: Ratio equal_pixel_count / total_pixel_count.

	@note: Input images must be the same size.
	"""
	equal = 0.0
	different = 0.0
	i = 0
	while i < widthheight3:
	pixel1_str = data1[i:i+3]
	pixel2_str = data2[i:i+3]
	# Compare pixels
	if pixel1_str == pixel2_str:
	equal += 1.0
	else:
	different += 1.0
	i += 3
	return equal / (equal + different)