Adding upstream version 1.2.2.upstream/1.2.2upstream

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 654 insertions, 0 deletions

diff --git a/share/extensions/nicechart.py b/share/extensions/nicechart.py
new file mode 100755
index 0000000..e25865f
--- /dev/null
+++ b/share/extensions/nicechart.py
@@ -0,0 +1,654 @@
+#!/usr/bin/env python
+# coding=utf-8
+#  nicechart.py
+#
+#  Copyright 2011-2016
+#
+#  Christoph Sterz
+#  Florian Weber
+#  Maren Hachmann
+#
+#  This program 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.
+#
+#  This program 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, write to the Free Software
+#  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
+#  MA 02110-1301, USA.
+#
+# pylint: disable=attribute-defined-outside-init
+
+# TODO / Ideas:
+# allow negative values for bar charts
+# show values for stacked bar charts
+# don't create a new layer for each chart, but a normal group
+# correct bar height for stacked bars (it's only half as high as it should be, double)
+# adjust position of heading
+# use aliasing workaround for stacked bars (e.g. let the rectangles overlap)
+
+# The extension creates one chart for a single value column in one go,
+# e.g. chart all temperatures for all months of the year 1978 into one chart.
+# (for this, select column 0 for labels and column 1 for values).
+# "1978" etc. can be used as heading (Need not be numeric. If not used delete the heading line.)
+# Month names can be used as labels
+# Values can be shown, in addition to labels (doesn't work with stacked bar charts)
+# Values can contain commas as decimal separator, as long as delimiter isn't comma
+# Negative values are not yet supported.
+
+# See tests/data/nicechart_01.csv for example data
+
+import re
+import csv
+import math
+
+from argparse import ArgumentTypeError
+
+import inkex
+from inkex.utils import filename_arg
+from inkex import Filter, TextElement, Circle, Rectangle
+from inkex.paths import Move, line
+from inkex.localization import inkex_gettext as _
+
+# www.sapdesignguild.org/goodies/diagram_guidelines/color_palettes.html#mss
+COLOUR_TABLE = {
+    "red": [
+        "#460101",
+        "#980101",
+        "#d40000",
+        "#f44800",
+        "#fb8b00",
+        "#eec73e",
+        "#d9bb7a",
+        "#fdd99b",
+    ],
+    "blue": ["#000442", "#0F1781", "#252FB7", "#3A45E1", "#656DDE", "#8A91EC"],
+    "gray": [
+        "#222222",
+        "#444444",
+        "#666666",
+        "#888888",
+        "#aaaaaa",
+        "#cccccc",
+        "#eeeeee",
+    ],
+    "contrast": ["#0000FF", "#FF0000", "#00FF00", "#CF9100", "#FF00FF", "#00FFFF"],
+    "sap": [
+        "#f8d753",
+        "#5c9746",
+        "#3e75a7",
+        "#7a653e",
+        "#e1662a",
+        "#74796f",
+        "#c4384f",
+        "#fff8a3",
+        "#a9cc8f",
+        "#b2c8d9",
+        "#bea37a",
+        "#f3aa79",
+        "#b5b5a9",
+        "#e6a5a5",
+    ],
+}
+
+
+class NiceChart(inkex.GenerateExtension):
+    """
+    Inkscape extension that can draw pie charts and bar charts
+    (stacked, single, horizontally or vertically)
+    with optional drop shadow, from a csv file or from pasted text
+    """
+
+    container_layer = True
+
+    @property
+    def container_label(self):
+        """Layer title/label"""
+        return _("Chart-Layer: {}").format(self.options.what)
+
+    def add_arguments(self, pars):
+        pars.add_argument("--tab")
+        pars.add_argument("--encoding", default="utf-8")
+        pars.add_argument(
+            "-w",
+            "--what",
+            default="apples:3,bananas:5,oranges:10,pears:4",
+            help="Chart Values",
+        )
+        pars.add_argument(
+            "-t",
+            "--type",
+            type=self.arg_method("render"),
+            default=self.render_bar,
+            help="Chart Type",
+        )
+        pars.add_argument(
+            "-b", "--blur", type=inkex.Boolean, default=False, help="Blur Type"
+        )
+        pars.add_argument("-f", "--filename", type=filename_arg, help="Name of File")
+        pars.add_argument("-i", "--input_type", default="file", help="Chart Type")
+        pars.add_argument("-d", "--delimiter", default=";", help="delimiter")
+        pars.add_argument("-c", "--colors", default="default", help="color-scheme")
+        pars.add_argument("--colors_override", help="color-scheme-override")
+        pars.add_argument(
+            "--reverse_colors",
+            type=inkex.Boolean,
+            default=False,
+            help="reverse color-scheme",
+        )
+        pars.add_argument(
+            "-k", "--col_key", type=int, default=0, help="column that contains the keys"
+        )
+        pars.add_argument(
+            "-v",
+            "--col_val",
+            type=int,
+            default=1,
+            help="column that contains the values",
+        )
+        pars.add_argument(
+            "--headings",
+            type=inkex.Boolean,
+            default=False,
+            help="first line of the CSV file consists of headings for the columns",
+        )
+        pars.add_argument(
+            "-r",
+            "--rotate",
+            type=inkex.Boolean,
+            default=False,
+            help="Draw barchart horizontally",
+        )
+        pars.add_argument(
+            "-W", "--bar-width", type=int, default=10, help="width of bars"
+        )
+        pars.add_argument(
+            "-p", "--pie-radius", type=int, default=100, help="radius of pie-charts"
+        )
+        pars.add_argument(
+            "-H", "--bar-height", type=int, default=100, help="height of bars"
+        )
+        pars.add_argument(
+            "-O", "--bar-offset", type=int, default=5, help="distance between bars"
+        )
+        pars.add_argument("--stroke-width", type=float, default=1.0)
+        pars.add_argument(
+            "-o",
+            "--text-offset",
+            type=int,
+            default=5,
+            help="distance between bar and descriptions",
+        )
+        pars.add_argument(
+            "--heading-offset",
+            type=int,
+            default=50,
+            help="distance between chart and chart title",
+        )
+        pars.add_argument(
+            "--segment-overlap",
+            type=inkex.Boolean,
+            default=False,
+            help="Remove aliasing effects by letting pie chart segments overlap",
+        )
+        pars.add_argument(
+            "-F", "--font", default="sans-serif", help="font of description"
+        )
+        pars.add_argument(
+            "-S", "--font-size", type=int, default=10, help="font size of description"
+        )
+        pars.add_argument(
+            "-C", "--font-color", default="#000000", help="font color of description"
+        )
+
+        pars.add_argument(
+            "-V",
+            "--show_values",
+            type=inkex.Boolean,
+            default=False,
+            help="Show values in chart",
+        )
+
+    def get_data(self):
+        """Process the data"""
+        col_key = self.options.col_key
+        col_val = self.options.col_val
+
+        def process_value(val):
+            """Confirm the values from files or direct"""
+            val = float(val)
+            if val < 0:
+                raise inkex.AbortExtension(
+                    _("Negative values are currently not supported!")
+                )
+            return val
+
+        if self.options.input_type == "file":
+            if self.options.filename is None:
+                raise inkex.AbortExtension(_("Filename not specified!"))
+
+            # Future: use encoding when opening the file here (if ever needed)
+            with open(self.options.filename, "r") as fhl:
+                reader = csv.reader(fhl, delimiter=self.options.delimiter)
+                title = col_val
+
+                if self.options.headings:
+                    header = next(reader)
+                    title = header[col_val]
+
+                values = [
+                    (line[col_key], process_value(line[col_val])) for line in reader
+                ]
+                return (title,) + tuple(zip(*values))
+
+        elif self.options.input_type == "direct_input":
+            (keys, values) = zip(
+                *[l.split(":", 1) for l in self.options.what.split(",")]
+            )
+            return ("Direct Input", keys, [process_value(val) for val in values])
+
+        raise inkex.AbortExtension(_("Unknown input type"))
+
+    def get_blur(self):
+        """Add blur to the svg and return if needed"""
+        if self.options.blur:
+            defs = self.svg.defs
+            # Create new Filter
+            filt = defs.add(Filter(height="3", width="3", x="-0.5", y="-0.5"))
+            # Append Gaussian Blur to that Filter
+            filt.add_primitive("feGaussianBlur", stdDeviation="1.1")
+            return inkex.Style(filter=filt.get_id(as_url=2))
+        return inkex.Style()
+
+    def get_color(self):
+        """Get the next available color"""
+        if not hasattr(self, "_colors"):
+            # Generate list of available colours
+            if self.options.colors_override:
+                colors = self.options.colors_override.strip()
+            else:
+                colors = self.options.colors
+
+            if colors[0].isalpha():
+                colors = COLOUR_TABLE.get(colors.lower(), COLOUR_TABLE["red"])
+
+            else:
+                colors = re.findall("(#[0-9a-fA-F]{6})", colors)
+                # to be sure we create a fallback:
+                if not colors:
+                    colors = COLOUR_TABLE["red"]
+
+            if self.options.reverse_colors:
+                colors.reverse()
+            # Cache the list of colours for later use
+            self._colors = colors
+            self._color_index = 0
+
+        color = self._colors[self._color_index]
+        # Increase index to the next available color
+        self._color_index = (self._color_index + 1) % len(self._colors)
+        return color
+
+    def generate(self):
+        """Generates a nice looking chart into SVG document."""
+
+        # Process the data from a file or text box
+        (self.title, keys, values) = self.get_data()
+        if not values:
+            raise inkex.AbortExtension(_("No data to render into a chart."))
+
+        # Get the page attributes:
+        self.width = self.svg.unittouu(self.svg.get("width"))
+        self.height = self.svg.unittouu(self.svg.attrib["height"])
+        self.fontoff = float(self.options.font_size) / 3
+
+        # Check if a drop shadow should be drawn:
+        self.blur = self.get_blur()
+
+        # Draw the right type of chart
+        for elem in self.options.type(keys, values):
+            yield elem
+
+    def draw_header(self, heading_x):
+        """Draw an optional header text"""
+        if self.options.headings and self.title:
+            headingtext = self.draw_text(self.title, 4, anchor="end")
+            headingtext.set("y", str(self.height / 2 + self.options.heading_offset))
+            headingtext.set("x", str(heading_x))
+            return headingtext
+        return None
+
+    def render_bar(self, keys, values):
+        """Draw bar chart"""
+        bar_height = self.options.bar_height
+        bar_width = self.options.bar_width
+        bar_offset = self.options.bar_offset
+
+        # Normalize the bars to the largest value
+        value_max = max(list(values) + [0.0])
+
+        # Draw Single bars with their shadows
+        for cnt, value in enumerate(values):
+            # Draw each bar a set amount offset
+            offset = cnt * (bar_width + bar_offset)
+            bar_value = (value / value_max) * bar_height
+
+            # Calculate the location of the bar
+            x = self.width / 2 + offset
+            y = self.height / 2 - int(bar_value)
+            width = bar_width
+            height = int(bar_value)
+
+            if self.options.rotate:
+                # Rotate the bar and align to the left
+                x, y, width, height = y, x, height, width
+                x += width
+
+            for elem in self.draw_rectangle(x, y, width, height):
+                yield elem
+
+            # If keys are given, create text elements
+            if keys:
+                text = self.draw_text(keys[cnt], anchor="end")
+                if not self.options.rotate:  # =vertical
+                    text.set("transform", "rotate(-90)")
+                    # y after rotation:
+                    text.set("x", "-" + str(self.height / 2 + self.options.text_offset))
+                    # x after rotation:
+                    text.set(
+                        "y", str(self.width / 2 + offset + bar_width / 2 + self.fontoff)
+                    )
+                else:  # =horizontal
+                    text.set(
+                        "y", str(self.width / 2 + offset + bar_width / 2 + self.fontoff)
+                    )
+                    text.set("x", str(self.height / 2 - self.options.text_offset))
+
+                yield text
+
+            if self.options.show_values:
+                vtext = self.draw_text(int(value))
+                if not self.options.rotate:  # =vertical
+                    vtext.set("transform", "rotate(-90)")
+                    # y after rotation:
+                    vtext.set(
+                        "x",
+                        "-" + str(self.height / 2 + value - self.options.text_offset),
+                    )
+                    # x after rotation:
+                    vtext.set(
+                        "y", str(self.width / 2 + offset + bar_width / 2 + self.fontoff)
+                    )
+                else:  # =horizontal
+                    vtext.set(
+                        "y", str(self.width / 2 + offset + bar_width / 2 + self.fontoff)
+                    )
+                    vtext.set(
+                        "x", str(self.height / 2 + value + self.options.text_offset)
+                    )
+                yield vtext
+
+        yield self.draw_header(self.width / 2)
+
+    def draw_rectangle(self, x, y, width, height):
+        """Draw a rectangle bar with optional shadow"""
+        if self.blur:
+            shadow = Rectangle(
+                x=str(x + 1), y=str(y + 1), width=str(width), height=str(height)
+            )
+            shadow.style = self.blur
+            yield shadow
+
+        rect = Rectangle(x=str(x), y=str(y), width=str(width), height=str(height))
+        rect.set("style", "fill:" + self.get_color())
+        yield rect
+
+    def draw_text(self, text, add_size=0, anchor="start", **kwargs):
+        """Draw a textual label"""
+        vtext = TextElement(**kwargs)
+        vtext.style = {
+            "fill": self.options.font_color,
+            "font-family": self.options.font,
+            "font-size": str(self.options.font_size + add_size) + "px",
+            "font-style": "normal",
+            "font-variant": "normal",
+            "font-weight": "normal",
+            "font-stretch": "normal",
+            "-inkscape-font-specification": "Bitstream Charter",
+            "text-align": anchor,
+            "text-anchor": anchor,
+        }
+        vtext.text = str(text)
+        return vtext
+
+    def render_pie_abs(self, keys, values):
+        """Draw a pie chart, with absolute values"""
+        # pie_abs = True
+        for elem in self.render_pie(keys, values, True):
+            yield elem
+
+    def render_pie(self, keys, values, pie_abs=False):
+        """Draw pie chart"""
+        pie_radius = self.options.pie_radius
+
+        # Iterate all values to draw the different slices
+        color = 0
+        x = float(self.width) / 2
+        y = float(self.height) / 2
+
+        # Create the shadow first (if it should be created):
+        if self.blur:
+            shadow = Circle(cx=str(x), cy=str(y))
+            shadow.set("r", str(pie_radius))
+            shadow.style = self.blur + inkex.Style(fill="#000000")
+            yield shadow
+
+        # Add a grey background circle with a light stroke
+        background = Circle(cx=str(x), cy=str(y))
+        background.set("r", str(pie_radius))
+        background.set("style", "stroke:#ececec;fill:#f9f9f9")
+        yield background
+
+        # create value sum in order to divide the slices
+        try:
+            valuesum = sum(values)
+        except ValueError:
+            valuesum = 0
+
+        if pie_abs:
+            valuesum = 100
+
+        # Set an offsetangle
+        offset = 0
+
+        # Draw single slices
+        for cnt, value in enumerate(values):
+            # Calculate the PI-angles for start and end
+            angle = (2 * 3.141592) / valuesum * float(value)
+            start = offset
+            end = offset + angle
+
+            # proper overlapping
+            if self.options.segment_overlap:
+                if cnt != len(values) - 1:
+                    end += 0.09  # add a 5° overlap
+                if cnt == 0:
+                    start -= (
+                        0.09  # let the first element overlap into the other direction
+                    )
+
+            # then add the slice
+            pieslice = inkex.PathElement.arc(
+                [x, y], pie_radius, pie_radius, start=start, end=end
+            )
+            pieslice.set(
+                "style", "fill:" + self.get_color() + ";stroke:none;fill-opacity:1"
+            )
+            ang = angle / 2 + offset
+
+            # If text is given, draw short paths and add the text
+            if keys:
+                elem = inkex.PathElement()
+                elem.path = [
+                    Move(
+                        (self.width / 2) + pie_radius * math.cos(ang),
+                        (self.height / 2) + pie_radius * math.sin(ang),
+                    ),
+                    line(
+                        (self.options.text_offset - 2) * math.cos(ang),
+                        (self.options.text_offset - 2) * math.sin(ang),
+                    ),
+                ]
+
+                elem.style = {
+                    "fill": "none",
+                    "stroke": self.options.font_color,
+                    "stroke-width": self.options.stroke_width,
+                    "stroke-linecap": "butt",
+                }
+                yield elem
+
+                label = keys[cnt]
+                if self.options.show_values:
+                    label += " ({}{})".format(str(value), ("", "%")[pie_abs])
+
+                # check if it is right or left of the Pie
+                anchor = "start" if math.cos(ang) > 0 else "end"
+                text = self.draw_text(label, anchor=anchor)
+
+                off = pie_radius + self.options.text_offset
+                text.set("x", (self.width / 2) + off * math.cos(ang))
+                text.set("y", (self.height / 2) + off * math.sin(ang) + self.fontoff)
+                yield text
+
+            # increase the rotation-offset and the colorcycle-position
+            offset = offset + angle
+            color = (color + 1) % 8
+
+            # append the objects to the extension-layer
+            yield pieslice
+
+        yield self.draw_header(self.width / 2 - pie_radius)
+
+    def render_stbar(self, keys, values):
+        """Draw stacked bar chart"""
+
+        # Iterate over all values to draw the different slices
+        color = 0
+
+        # create value sum in order to divide the bars
+        try:
+            valuesum = sum(values)
+        except ValueError:
+            valuesum = 0.0
+
+        # Init offset
+        offset = 0
+        width = self.options.bar_width
+        height = self.options.bar_height
+        x = self.width / 2
+        y = self.height / 2
+
+        if self.blur:
+            if self.options.rotate:
+                width, height = height, width
+                shy = y
+            else:
+                shy = str(y - self.options.bar_height)
+
+            # Create rectangle element
+            shadow = Rectangle(
+                x=str(x),
+                y=str(shy),
+                width=str(width),
+                height=str(height),
+            )
+
+            # Set shadow blur (connect to filter object in xml path)
+            shadow.style = self.blur
+            yield shadow
+
+        # Draw Single bars
+        for cnt, value in enumerate(values):
+
+            # Calculate the individual heights normalized on 100units
+            normedvalue = (self.options.bar_height / valuesum) * float(value)
+
+            # Create rectangle element
+            rect = Rectangle()
+
+            # Set chart position to center of document.
+            if not self.options.rotate:
+                rect.set("x", str(self.width / 2))
+                rect.set("y", str(self.height / 2 - offset - normedvalue))
+                rect.set("width", str(self.options.bar_width))
+                rect.set("height", str(normedvalue))
+            else:
+                rect.set("x", str(self.width / 2 + offset))
+                rect.set("y", str(self.height / 2))
+                rect.set("height", str(self.options.bar_width))
+                rect.set("width", str(normedvalue))
+
+            rect.set("style", "fill:" + self.get_color())
+
+            # If text is given, draw short paths and add the text
+            # TODO: apply overlap workaround for visible gaps in between
+            if keys:
+                if not self.options.rotate:
+                    x1 = (self.width + self.options.bar_width) / 2
+                    y1 = y - offset - (normedvalue / 2)
+                    x2 = self.options.bar_width / 2 + self.options.text_offset
+                    y2 = 0
+                    txt = (
+                        self.width / 2
+                        + self.options.bar_width
+                        + self.options.text_offset
+                        + 1
+                    )
+                    tyt = y - offset + self.fontoff - (normedvalue / 2)
+                else:
+                    x1 = x + offset + normedvalue / 2
+                    y1 = y + self.options.bar_width / 2
+                    x2 = 0
+                    y2 = (
+                        self.options.bar_width / 2
+                        + (self.options.font_size * cnt)
+                        + self.options.text_offset
+                    )
+                    txt = x + offset + normedvalue / 2 - self.fontoff
+                    tyt = (
+                        (y)
+                        + self.options.bar_width
+                        + (self.options.font_size * (cnt + 1))
+                        + self.options.text_offset
+                    )
+
+                elem = inkex.PathElement()
+                elem.path = [Move(x1, y1), line(x2, y2)]
+                elem.style = {
+                    "fill": "none",
+                    "stroke": self.options.font_color,
+                    "stroke-width": self.options.stroke_width,
+                    "stroke-linecap": "butt",
+                }
+                yield elem
+                yield self.draw_text(keys[cnt], x=str(txt), y=str(tyt))
+
+            # Increase Offset and Color
+            offset = offset + normedvalue
+            color = (color + 1) % 8
+
+            # Draw rectangle
+            yield rect
+
+        yield self.draw_header(self.width / 2 + offset + normedvalue)
+
+
+if __name__ == "__main__":
+    NiceChart().run()