use barcode synchronization when running EnergyTrace benchmarks

2 files changed, 354 insertions, 0 deletions

diff --git a/lib/pubcode/__init__.py b/lib/pubcode/__init__.py
new file mode 100644
index 0000000..30c8490
--- /dev/null
+++ b/lib/pubcode/__init__.py
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+"""A simple module for creating barcodes.
+
+"""
+__version__ = '1.1.0'
+
+from .code128 import Code128
diff --git a/lib/pubcode/code128.py b/lib/pubcode/code128.py
new file mode 100644
index 0000000..1c37f37
--- /dev/null
+++ b/lib/pubcode/code128.py
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+# -*- coding: utf-8 -*-
+# MIT Licensed, Copyright (c) 2015 Ari Koivula
+# https://github.com/Venti-/pubcode
+from __future__ import absolute_import, division, print_function, unicode_literals
+from builtins import *  # Use Python3-like builtins for Python2.
+import base64
+import io
+try:
+    from PIL import Image
+except ImportError:
+    # PIL is needed only for creating images of the barcode. Set Image to None to signify that PIL is missing.
+    Image = None
+
+
+class Code128(object):
+    class Error(Exception):
+        pass
+
+    class CharsetError(Error):
+        pass
+
+    class CharsetLengthError(Error):
+        pass
+
+    class IncompatibleCharsetError(Error):
+        pass
+
+    class MissingDependencyError(Error):
+        pass
+
+    class UnknownFormatError(Error):
+        pass
+
+    # List of bar and space weights, indexed by symbol character values (0-105), and the STOP character (106).
+    # The first weights is a bar and then it alternates.
+    _val2bars = [
+        '212222', '222122', '222221', '121223', '121322', '131222', '122213', '122312', '132212', '221213',
+        '221312', '231212', '112232', '122132', '122231', '113222', '123122', '123221', '223211', '221132',
+        '221231', '213212', '223112', '312131', '311222', '321122', '321221', '312212', '322112', '322211',
+        '212123', '212321', '232121', '111323', '131123', '131321', '112313', '132113', '132311', '211313',
+        '231113', '231311', '112133', '112331', '132131', '113123', '113321', '133121', '313121', '211331',
+        '231131', '213113', '213311', '213131', '311123', '311321', '331121', '312113', '312311', '332111',
+        '314111', '221411', '431111', '111224', '111422', '121124', '121421', '141122', '141221', '112214',
+        '112412', '122114', '122411', '142112', '142211', '241211', '221114', '413111', '241112', '134111',
+        '111242', '121142', '121241', '114212', '124112', '124211', '411212', '421112', '421211', '212141',
+        '214121', '412121', '111143', '111341', '131141', '114113', '114311', '411113', '411311', '113141',
+        '114131', '311141', '411131', '211412', '211214', '211232', '2331112'
+    ]
+
+    class Special(object):
+        """These are special characters used by the Code128 encoding."""
+        START_A = '[Start Code A]'
+        START_B = '[Start Code B]'
+        START_C = '[Start Code C]'
+        CODE_A = '[Code A]'
+        CODE_B = '[Code B]'
+        CODE_C = '[Code C]'
+        SHIFT_A = '[Shift A]'
+        SHIFT_B = '[Shift B]'
+        FNC_1 = '[FNC 1]'
+        FNC_2 = '[FNC 2]'
+        FNC_3 = '[FNC 3]'
+        FNC_4 = '[FNC 4]'
+        STOP = '[Stop]'
+
+    _start_codes = {'A': Special.START_A, 'B': Special.START_B, 'C': Special.START_C}
+    _char_codes = {'A': Special.CODE_A, 'B': Special.CODE_B, 'C': Special.CODE_C}
+
+    # Lists mapping symbol values to characters in each character set. This defines the alphabet and Code128._sym2val
+    # is derived from this structure.
+    _val2sym = {
+        # Code Set A includes ordinals 0 through 95 and 7 special characters. The ordinals include digits,
+        # upper case characters, punctuation and control characters.
+        'A':
+            [chr(x) for x in range(32, 95 + 1)] +
+            [chr(x) for x in range(0, 31 + 1)] +
+            [
+                Special.FNC_3, Special.FNC_2, Special.SHIFT_B, Special.CODE_C,
+                Special.CODE_B, Special.FNC_4, Special.FNC_1,
+                Special.START_A, Special.START_B, Special.START_C, Special.STOP
+            ],
+        # Code Set B includes ordinals 32 through 127 and 7 special characters. The ordinals include digits,
+        # upper and lover case characters and punctuation.
+        'B':
+            [chr(x) for x in range(32, 127 + 1)] +
+            [
+                Special.FNC_3, Special.FNC_2, Special.SHIFT_A, Special.CODE_C,
+                Special.FNC_4, Special.CODE_A, Special.FNC_1,
+                Special.START_A, Special.START_B, Special.START_C, Special.STOP
+            ],
+        # Code Set C includes all pairs of 2 digits and 3 special characters.
+        'C':
+            ['%02d' % (x,) for x in range(0, 99 + 1)] +
+            [
+                Special.CODE_B, Special.CODE_A, Special.FNC_1,
+                Special.START_A, Special.START_B, Special.START_C, Special.STOP
+            ],
+    }
+
+    # Dicts mapping characters to symbol values in each character set.
+    _sym2val = {
+        'A': {char: val for val, char in enumerate(_val2sym['A'])},
+        'B': {char: val for val, char in enumerate(_val2sym['B'])},
+        'C': {char: val for val, char in enumerate(_val2sym['C'])},
+    }
+
+    # How large the quiet zone is on either side of the barcode, when quiet zone is used.
+    quiet_zone = 10
+
+    def __init__(self, data, charset=None):
+        """Initialize a barcode with data as described by the character sets in charset.
+
+        :param data: The data to be encoded.
+        :param charset: A single character set (A, B or C), an iterable with a character set for each symbol or None.
+                        - If a single character set is chosen, all characters will be encoded with that set, except for
+                          incompatible characters which will be coded with one of the other character sets.
+                        - If a sequence of character sets are given, incompatible characters will result in
+                          Code128.IncompatibleCharsetError. Wrong size of the charset sequence in relation to data,
+                          will result in Code128.CharsetLengthError.
+                        - If None is given, the character set will be chosen as to minimize the length of the barcode.
+        """
+        self._validate_charset(data, charset)
+
+        if charset in ('A', 'B'):
+            charset *= len(data)
+        elif charset in ('C',):
+            charset *= (len(data) // 2)
+            if len(data) % 2 == 1:
+                # If there are an odd number of characters for charset C, encode the last character with charset B.
+                charset += 'B'
+
+        self.data = data
+        self.symbol_values = self._encode(data, charset)
+
+    def width(self, add_quiet_zone=False):
+        """Return the barcodes width in modules for a given data and character set combination.
+
+        :param add_quiet_zone: Whether quiet zone should be included in the width.
+
+        :return: Width of barcode in modules, which for images translates to pixels.
+        """
+        quiet_zone = self.quiet_zone if add_quiet_zone else 0
+        return len(self.modules) + 2 * quiet_zone
+
+    @staticmethod
+    def _validate_charset(data, charset):
+        """"Validate that the charset is correct and throw an error if it isn't."""
+        if len(charset) > 1:
+            charset_data_length = 0
+            for symbol_charset in charset:
+                if symbol_charset not in ('A', 'B', 'C'):
+                    raise Code128.CharsetError
+                charset_data_length += 2 if symbol_charset is 'C' else 1
+            if charset_data_length != len(data):
+                raise Code128.CharsetLengthError
+        elif len(charset) == 1:
+            if charset not in ('A', 'B', 'C'):
+                raise Code128.CharsetError
+        elif charset is not None:
+            raise Code128.CharsetError
+
+    @classmethod
+    def _encode(cls, data, charsets):
+        """Encode the data using the character sets in charsets.
+
+        :param data: Data to be encoded.
+        :param charsets: Sequence of charsets that are used to encode the barcode.
+                         Must be the exact amount of symbols needed to encode the data.
+        :return: List of the symbol values representing the barcode.
+        """
+        result = []
+
+        charset = charsets[0]
+        start_symbol = cls._start_codes[charset]
+        result.append(cls._sym2val[charset][start_symbol])
+
+        cur = 0
+        prev_charset = charsets[0]
+        for symbol_num in range(len(charsets)):
+            charset = charsets[symbol_num]
+
+            if charset is not prev_charset:
+                # Handle a special case of there being a single A in middle of two B's or the other way around, where
+                # using a single shift character is more efficient than using two character set switches.
+                next_charset = charsets[symbol_num + 1] if symbol_num + 1 < len(charsets) else None
+                if charset == 'A' and prev_charset == next_charset == 'B':
+                    result.append(cls._sym2val[prev_charset][cls.Special.SHIFT_A])
+                elif charset == 'B' and prev_charset == next_charset == 'A':
+                    result.append(cls._sym2val[prev_charset][cls.Special.SHIFT_B])
+                else:
+                    # This is the normal case.
+                    charset_symbol = cls._char_codes[charset]
+                    result.append(cls._sym2val[prev_charset][charset_symbol])
+                    prev_charset = charset
+
+            nxt = cur + (2 if charset == 'C' else 1)
+            symbol = data[cur:nxt]
+            cur = nxt
+            result.append(cls._sym2val[charset][symbol])
+
+        result.append(cls._calc_checksum(result))
+        result.append(cls._sym2val[charset][cls.Special.STOP])
+
+        return result
+
+    @property
+    def symbols(self):
+        """List of the coded symbols as strings, with special characters included."""
+        def _iter_symbols(symbol_values):
+            # The initial charset doesn't matter, as the start codes have the same symbol values in all charsets.
+            charset = 'A'
+
+            shift_charset = None
+            for symbol_value in symbol_values:
+                if shift_charset:
+                    symbol = self._val2sym[shift_charset][symbol_value]
+                    shift_charset = None
+                else:
+                    symbol = self._val2sym[charset][symbol_value]
+
+                if symbol in (self.Special.START_A, self.Special.CODE_A):
+                    charset = 'A'
+                elif symbol in (self.Special.START_B, self.Special.CODE_B):
+                    charset = 'B'
+                elif symbol in (self.Special.START_C, self.Special.CODE_C):
+                    charset = 'C'
+                elif symbol in (self.Special.SHIFT_A,):
+                    shift_charset = 'A'
+                elif symbol in (self.Special.SHIFT_B,):
+                    shift_charset = 'B'
+
+                yield symbol
+
+        return list(_iter_symbols(self.symbol_values))
+
+    @property
+    def bars(self):
+        """A string of the bar and space weights of the barcode. Starting with a bar and alternating.
+
+        >>> barcode = Code128("Hello!", charset='B')
+        >>> barcode.bars
+        '2112142311131122142211142211141341112221221212412331112'
+
+        :rtype: string
+        """
+        return ''.join(map((lambda val: self._val2bars[val]), self.symbol_values))
+
+    @property
+    def modules(self):
+        """A list of the modules, with 0 representing a bar and 1 representing a space.
+
+        >>> barcode = Code128("Hello!", charset='B')
+        >>> barcode.modules  # doctest: +ELLIPSIS
+        [0, 0, 1, 0, 1, 1, 0, 1, ..., 0, 0, 0, 1, 0, 1, 0, 0]
+
+        :rtype: list[int]
+        """
+        def _iterate_modules(bars):
+            is_bar = True
+            for char in map(int, bars):
+                while char > 0:
+                    char -= 1
+                    yield 0 if is_bar else 1
+                is_bar = not is_bar
+
+        return list(_iterate_modules(self.bars))
+
+    @staticmethod
+    def _calc_checksum(values):
+        """Calculate the symbol check character."""
+        checksum = values[0]
+        for index, value in enumerate(values):
+            checksum += index * value
+        return checksum % 103
+
+    def image(self, height=1, module_width=1, add_quiet_zone=True):
+        """Get the barcode as PIL.Image.
+
+        By default the image is one pixel high and the number of modules pixels wide, with 10 empty modules added to
+        each side to act as the quiet zone. The size can be modified by setting height and module_width, but if used in
+        a web page it might be a good idea to do the scaling on client side.
+
+        :param height: Height of the image in number of pixels.
+        :param module_width: A multiplier for the width.
+        :param add_quiet_zone: Whether to add 10 empty modules to each side of the barcode.
+
+        :rtype: PIL.Image
+        :return: A monochromatic image containing the barcode as black bars on white background.
+        """
+        if Image is None:
+            raise Code128.MissingDependencyError("PIL module is required to use image method.")
+
+        modules = list(self.modules)
+        if add_quiet_zone:
+            # Add ten space modules to each side of the barcode.
+            modules = [1] * self.quiet_zone + modules + [1] * self.quiet_zone
+        width = len(modules)
+
+        img = Image.new(mode='1', size=(width, 1))
+        img.putdata(modules)
+
+        if height == 1 and module_width == 1:
+            return img
+        else:
+            new_size = (width * module_width, height)
+            return img.resize(new_size, resample=Image.NEAREST)
+
+    def data_url(self, image_format='png', add_quiet_zone=True):
+        """Get a data URL representing the barcode.
+
+        >>> barcode = Code128('Hello!', charset='B')
+        >>> barcode.data_url()  # doctest: +ELLIPSIS
+        'data:image/png;base64,...'
+
+        :param image_format: Either 'png' or 'bmp'.
+        :param add_quiet_zone: Add a 10 white pixels on either side of the barcode.
+
+        :raises: Code128.UnknownFormatError
+        :raises: Code128.MissingDependencyError
+
+        :rtype: str
+        :returns: A data URL with the barcode as an image.
+        """
+        memory_file = io.BytesIO()
+        pil_image = self.image(add_quiet_zone=add_quiet_zone)
+
+        # Using BMP can often result in smaller data URLs than PNG, but it isn't as widely supported by browsers as PNG.
+        # GIFs result in data URLs 10 times bigger than PNG or BMP, possibly due to lack of support for monochrome GIFs
+        # in Pillow, so they shouldn't be used.
+        if image_format == 'png':
+            # Unfortunately there is no way to avoid adding the zlib headers.
+            # Using compress_level=0 sometimes results in a slightly bigger data size (by a few bytes), but there
+            # doesn't appear to be a difference between levels 9 and 1, so let's just use 1.
+            pil_image.save(memory_file, format='png', compress_level=1)
+        elif image_format == 'bmp':
+            pil_image.save(memory_file, format='bmp')
+        else:
+            raise Code128.UnknownFormatError('Only png and bmp are supported.')
+
+        # Encode the data in the BytesIO object and convert the result into unicode.
+        base64_image = base64.b64encode(memory_file.getvalue()).decode('ascii')
+
+        data_url = 'data:image/{format};base64,{base64_data}'.format(
+            format=image_format,
+            base64_data=base64_image
+        )
+
+        return data_url