├── calendar_widget
└── __init__.py
├── README_info
├── example_one.png
├── Calendar - Dark Theme.png
└── Calendar - Light Theme.png
├── .pypirc
├── tests
├── created_img_embbed.py
├── import_test.py
└── img.txt
├── .github
├── ISSUE_TEMPLATE
│ ├── feature_request.md
│ └── bug_report.md
└── workflows
│ └── publish.yml
├── pyproject.toml
├── README.md
└── LICENSE.md
/calendar_widget/__init__.py:
--------------------------------------------------------------------------------
1 | from .calendar_widget import Calendar
--------------------------------------------------------------------------------
/README_info/example_one.png:
--------------------------------------------------------------------------------
https://raw.githubusercontent.com/Spartanlasergun/calendar_widget/HEAD/README_info/example_one.png
--------------------------------------------------------------------------------
/.pypirc:
--------------------------------------------------------------------------------
1 | [distutils]
2 | index-servers =
3 | pypi
4 |
5 | [pypi]
6 | username = __token__
7 | password = CALENDAR_WIDGET_TOKEN
8 |
--------------------------------------------------------------------------------
/README_info/Calendar - Dark Theme.png:
--------------------------------------------------------------------------------
https://raw.githubusercontent.com/Spartanlasergun/calendar_widget/HEAD/README_info/Calendar - Dark Theme.png
--------------------------------------------------------------------------------
/README_info/Calendar - Light Theme.png:
--------------------------------------------------------------------------------
https://raw.githubusercontent.com/Spartanlasergun/calendar_widget/HEAD/README_info/Calendar - Light Theme.png
--------------------------------------------------------------------------------
/tests/created_img_embbed.py:
--------------------------------------------------------------------------------
1 | import base64
2 |
3 | def create(img):
4 | with open(img, "rb") as image_file:
5 | # Read the image file in binary mode
6 | image_data = image_file.read()
7 | # Encode the image data as a base64 string
8 | base64_string = base64.b64encode(image_data).decode("utf-8")
9 |
10 | # write to txt file
11 | write = open('img.txt', 'w', encoding='utf-8')
12 | write.write(base64_string)
13 | write.close()
14 |
15 | create('default.gif')
--------------------------------------------------------------------------------
/.github/ISSUE_TEMPLATE/feature_request.md:
--------------------------------------------------------------------------------
1 | ---
2 | name: Feature request
3 | about: Suggest an idea for this project
4 | title: ''
5 | labels: ''
6 | assignees: ''
7 |
8 | ---
9 |
10 | **Is your feature request related to a problem? Please describe.**
11 | A clear and concise description of what the problem is. Ex. I'm always frustrated when [...]
12 |
13 | **Describe the solution you'd like**
14 | A clear and concise description of what you want to happen.
15 |
16 | **Describe alternatives you've considered**
17 | A clear and concise description of any alternative solutions or features you've considered.
18 |
19 | **Additional context**
20 | Add any other context or screenshots about the feature request here.
21 |
--------------------------------------------------------------------------------
/.github/ISSUE_TEMPLATE/bug_report.md:
--------------------------------------------------------------------------------
1 | ---
2 | name: Bug report
3 | about: Create a report to help us improve
4 | title: ''
5 | labels: ''
6 | assignees: ''
7 |
8 | ---
9 |
10 | **Describe the bug**
11 | A clear and concise description of what the bug is.
12 |
13 | **To Reproduce**
14 | Steps to reproduce the behavior (include code if possible):
15 | 1.
16 | 2.
17 | 3.
18 |
19 | **Expected behavior**
20 | A clear and concise description of what you expected to happen.
21 |
22 | **Screenshots**
23 | If applicable, add screenshots to help explain your problem.
24 |
25 | **Desktop (please complete the following information):**
26 | - OS:
27 | - Python Version:
28 |
29 |
30 | **Additional context**
31 | Add any other context about the problem here.
32 |
--------------------------------------------------------------------------------
/pyproject.toml:
--------------------------------------------------------------------------------
1 | [build-system]
2 | requires = ["hatchling"]
3 | build-backend = "hatchling.build"
4 |
5 | [project]
6 | name = "calendar_widget"
7 | version = "1.0.11"
8 | authors = [
9 | { name="Spartanlasergun", email="bns360@live.com" },
10 | ]
11 | description = "Calendar widget for use with python tkinter"
12 | readme = "README.md"
13 | requires-python = ">=3.8"
14 | classifiers = [
15 | "Programming Language :: Python :: 3",
16 | "License :: OSI Approved :: GNU Lesser General Public License v2 or later (LGPLv2+)",
17 | "Operating System :: Microsoft :: Windows",
18 | ]
19 |
20 | [project.urls]
21 | "Homepage" = "https://github.com/Spartanlasergun/calendar_widget"
22 | "Bug Tracker" = "https://github.com/Spartanlasergun/calendar_widget/issues"
--------------------------------------------------------------------------------
/.github/workflows/publish.yml:
--------------------------------------------------------------------------------
1 | name: Publish Python Package
2 |
3 | on:
4 | push:
5 | branches:
6 | - main
7 | pull_request:
8 | branches:
9 | - main
10 |
11 | jobs:
12 | build:
13 | runs-on: ubuntu-latest
14 |
15 | steps:
16 | - name: Checkout code
17 | uses: actions/checkout@v2
18 |
19 | - name: Set up Python
20 | uses: actions/setup-python@v2
21 | with:
22 | python-version: '3.12'
23 |
24 | - name: Install latest version of build
25 | run: pip install --upgrade build
26 |
27 | - name: Build package
28 | run: python -m build
29 |
30 | - name: Install twine
31 | run: pip install --upgrade twine
32 |
33 | - name: Publish to PYPI
34 | env:
35 | TWINE_USERNAME: __token__
36 | TWINE_PASSWORD: ${{ secrets.CALENDAR_WIDGET_TOKEN }}
37 | run: twine upload --repository-url https://upload.pypi.org/legacy/ dist/* --skip-existing
--------------------------------------------------------------------------------
/tests/import_test.py:
--------------------------------------------------------------------------------
1 | import tkinter
2 | from calendar_widget import Calendar
3 |
4 | # define the main window into which the widget will be placed
5 | root = tkinter.Tk()
6 | root.geometry('600x600') # the geometry function defines the size of the tkinter window
7 | # - in this case, we are using a window that is 600px by 600px
8 |
9 | # the 'Calendar_Click' function retrives the date selected on the Calendar by the user, and prints the date to the console
10 | def Calendar_Click():
11 | print(Calendar.getdate())
12 |
13 | # create the calendar widget
14 | Calendar = Calendar(root, # specify the tkinter window into which the widget will be placed
15 | pos_x = 0, # set the x position of the calendar widget within the tkinter window
16 | pos_y = 0, # set the y position of the calendar widget within the tkinter window
17 | background = 'lightblue', # set the background of the calendar to light blue
18 | command = Calendar_Click # link the 'Calendar_Click' function to the widget
19 | )
20 |
21 | # Note: images of the type 'png', 'gif', 'ppm', and 'pgm' can be set as the background.
22 | # However, these images will not scale with the size of the calendar.
23 |
24 | # remember to call your mainloop function so that the tkinter window is persistent
25 |
26 | current_date = Calendar.getdate_today()
27 | print(current_date)
28 |
29 | root.mainloop()
30 |
--------------------------------------------------------------------------------
/README.md:
--------------------------------------------------------------------------------
1 | # Calendar Widget for use with python tkinter
2 |
3 | 
4 | 
5 |
6 | ------
7 |
8 | ------
9 |
10 | ------
11 |
12 | ------
13 |
14 | ------
15 |
16 | ------
17 |
18 | ------
19 |
20 | ------
21 |
22 | ------
23 |
24 | ------
25 |
26 | # INSTALLATION
27 |
28 | ##### Install the calendar widget using the following commands
29 | ```python
30 | pip install calendar_widget
31 | ```
32 |
33 | # USAGE
34 |
35 | #### First, Import the calendar widget along with tkinter
36 | ```python
37 | import tkinter
38 | from calendar_widget import Calendar
39 | ```
40 |
41 | ##### Define the tkinter window into which the widget will be placed. EXAMPLE:
42 | ```python
43 | root = tkinter.Tk()
44 | root.geometry('600x600')
45 | ```
46 |
47 | ##### The Calendar Widget can then be created as follows:
48 | ```python
49 | Calendar = Calendar(root)
50 | ```
51 |
52 | ##### To pass a command to the Calendar, specify the command option when it is created
53 | ```python
54 | Calendar = Calendar(root, command=user_command, ...)
55 | ```
56 |
57 | ##### To retrieve a selected date on the calendar, use the getdate() command:
58 | ```python
59 | selected_date = Calendar.getdate()
60 | ```
61 |
62 | ##### To retrieve the current date as specified by the operating system, use the getdate_today() command:
63 | ```python
64 | date_today = Calendar.getdate_today()
65 | ```
66 |
67 | ##### To create a checkbox on the calendar, the command is as follows:
68 | ```python
69 | checkbox = Calendar.checkboxes(10, 10, 2022, status=True, ...)
70 |
71 | #to remove a chcekbox that has already been created specify the delete option as follows:
72 |
73 | Calendar.checkboxes(10, 10, 2022, delete=True)
74 | ```
75 |
76 | ##### To destroy the calendar widget, call the destroy method:
77 | ```python
78 | Calendar.destroy()
79 | ```
80 |
81 | ## Example 1 - Basic Setup
82 |
83 | -----
84 | 
85 |
86 | ```python
87 | # import tkinter and the calendar widget
88 | import tkinter
89 | from calendar_widget import Calendar
90 |
91 | # define the main window into which the widget will be placed
92 | root = tkinter.Tk()
93 | root.geometry('600x600') # the geometry function defines the size of the tkinter window
94 | # - in this case, we are using a window that is 600px by 600px
95 |
96 | # create the calendar widget
97 | Calendar = Calendar(root, # specify the tkinter window into which the widget will be placed
98 | pos_x = 0, # set the x position of the calendar widget within the tkinter window
99 | pos_y = 0, # set the y position of the calendar widget within the tkinter window
100 | background = 'lightblue', # set the background of the calendar to light blue
101 | )
102 |
103 | # Note: images of the type 'png', 'gif', 'ppm', and 'pgm' can be set as the background.
104 | # However, these images will not scale with the size of the calendar.
105 |
106 | # remember to call your mainloop function so that the tkinter window is persistent
107 | root.mainloop()
108 | ```
109 |
110 | Note: if no 'pos_x' or 'pos_y' parameters are given, the Calendar widget will default to using the standard pack function.
111 |
112 | -----
113 |
114 | ## Example 2 - Binding a command to the calendar
115 |
116 | -----
117 |
118 | ```python
119 | # the 'Calendar_Click' function retrives the date selected on the Calendar by the user, and prints the date to the console
120 | def Calendar_Click():
121 | print(Calendar.getdate())
122 |
123 | # create the calendar widget
124 | Calendar = Calendar(root,
125 | pos_x = 0,
126 | pos_y = 0,
127 | background = 'lightblue',
128 | command = Calendar_Click # link the 'Calendar_Click' function to the widget
129 | )
130 | ```
131 |
132 | Note: Only a single command can be linked to the calendar widget.
133 |
134 | -----
135 |
136 | # Widget Parameters - functionality and styling
137 |
138 | The table below specifies opitons availiable for styling and other operations associated with the calendar widget
139 |
140 | | options | description |
141 | | ------- | ----------- |
142 | | width= | Sets the width of the widget in pixels. The default width is 300px.
Example: ``` Calendar = Calendar(root, width=350) ``` |
143 | | height= | Sets the height of the widget in pixels. The default height is 200px.
Example: ``` Calendar = Calendar(root, height=200) ``` |
144 | | padding= | Sets the internal padding of the calendar widget. The default padding is set to 10px.
Example: ``` Calendar = Calendar(root, padding=15) ```
145 | | pos_x= | Sets the x coordinate position of the widget within the window. Note: In tkinter, this is always the top left corner.
Example: ``` Calendar = Calendar(root, pos_x=0) ``` |
146 | | pos_y= | Sets the y coordinate position of the widget within the window. Note: In tkinter, this is always the top left corner.
Example: ``` Calendar = Calendar(root, pos_y=0) ``` |
147 | | style= | Set the style="Dark" for the dark theme. If no styling is specified the Calendar will inherit its default white theme.
Example: ``` Calendar = Calendar(root, style='Dark') ``` |
148 | | command= | A function to be called when the widget is clicked.
Example: ``` Calendar = Calendar(root, command=my_function) ``` |
149 | | background= | Sets the background of the Calendar to a valid tkinter colour or image (png, gif, ppm, pgm).
Example: ``` Calendar = Calendar(root, background='sky.png') ``` |
150 | | img_pos_x= | Set the x coordinate of the background image if specified (by default, this is the top left corner).
Example: ``` Calendar = Calendar(root, background='sky.png', img_pos_x=0) ``` |
151 | | img_pos_y= | Set the y coordinate of the background image if specified (by default, this is the top left corner).
Example: ``` Calendar = Calendar(root, background='sky.png', img_pos_y=0) ``` |
152 | | img_anchor= | Set the anchor of the background image if specified (by default, this is set to 'nw' - the top left corner).
Example: ``` Calendar = Calendar(root, background='sky.png', img_pos_x=0, img_pos_y=0, img_anchor='ne') ``` |
153 | | arrow_box_border= | Sets the border colour of the box containing the arrows for selecting previous and following months.
Example: ``` Calendar = Calendar(root, arrow_box_border='blue') ``` |
154 | | arrow_box_fill= | Sets the background of the box containing the arrows for selecting previous and following months.
Example: ``` Calendar = Calendar(root, arrow_box_fill='red') ``` |
155 | | arrow_box_width= | Sets the line width of the box containing the arrows for selecting previous and following months.
Example: ``` Calendar = Calendar(root, arrow_box_width=3) ``` |
156 | | date_box_fill= | Sets the colour inside of the boxes that make up the monthly calendar grid.
Example: ``` Calendar = Calendar(root, date_box_fill='purple') ``` |
157 | | date_box_width= | Sets the width of the line used to create the grid for the monthly calendar.
Example: ``` Calendar = Calendar(root, date_box_width=5) ``` |
158 | | date_boxes_outline= | Sets the colour of the box outline for the boxes that make up the monthly claendar grid.
Example: ``` Calendar = Calendar(root, date_boxes_outline='lime') ``` |
159 | | arrow_outline= | Sets the colour for the outline of the polygon (i.e - triangle) that represents the calendar arrows.
Example: ``` Calendar = Calendar(root, arrow_outline='lightblue') ``` |
160 | | arrow_fill= | Sets the colour of the calendar arrows.
Example: ``` Calendar = Calendar(root, arrow_fill='navy') ``` |
161 | | arrow_thickness= | Sets the thickness of the calendar arrows.
Example: ``` Calendar = Calendar(root, arrow_thickness=5) ``` |
162 | | arrow_active= | Sets the colour for the active highlight when the mouse hovers over the calendar arrows.
Example: ``` Calendar = Calendar(root, arrow_active='magenta') ``` |
163 | | weekday_border= | Sets the colour for the outline of the boxes that hold the weekday headings.
Example: ``` Calendar = Calendar(root, weekday_border='blue') ``` |
164 | | weekday_fill= | Sets the colour for the background of the boxes that hold the weekday headings.
Example: ``` Calendar = Calendar(root, weekday_fill='gray') ``` |
165 | | weekday_width= | Sets the width of the boxes that hold the weekday headings.
Example: ``` Calendar = Calendar(root, weekday_width=3) ``` |
166 | | weekday_font_fill= | Sets the colour of the text associated with the weekday headings.
Example: ``` Calendar = Calendar(root, weekday_font_fill='red') ``` |
167 | | weekday_font_family= | Sets the type of font used to create the weekday headings. (Accepts any of the valid native tkinter fonts).
Example: ``` Calendar = Calendar(root, weekday_font_family='Georgia') ``` |
168 | | weekday_font_weight= | Sets the weight of the font used to create the weekday headings. Valid options are 'normal' or 'bold'.
Example: ``` Calendar = Calendar(root, weekday_font_family='bold') ``` |
169 | | weekday_font_slant= | Sets the slant of the font used to create the weekday headings. Valid options are 'roman' or 'italic'.
Example: ``` Calendar = Calendar(root, weekday_font_slant='italic') ``` |
170 | | weekday_font_underline= | Sets the underline of the font used to creates the weekday heading. Valid options are True or False.
Example: ``` Calendar = Calendar(root, weekday_font_underline=True) ``` |
171 | | weekday_font_size= | Sets the font size of the weekday headings. Note: this overrides the default size and scaling of the font.
Example: ``` Calendar = Calendar(root, weekday_font_size=10) ``` |
172 | | calendar_date_title= | Sets the colour of the text associated with the calendar title (ex: Aug 2020).
Example: ``` Calendar = Calendar(root, calendar_date_title='red') ``` |
173 | | date_heading_font_family= | Sets the font type for the Calendar date heading. (Accepts any of the valid native tkinter fonts).
Example: ``` Calendar = Calendar(root, date_heading_font_family='Helvetica') ``` |
174 | | date_heading_font_weight= | Sets the weight of the font used to create the Calendar date heading. Valid options are 'normal' or 'bold'.
Example: ``` Calendar = Calendar(root, date_heading_font_weight='bold') ``` |
175 | | date_heading_font_slant= | Sets the slant of the font used to create the Calendar date heading. Valid options are 'roman' or 'italic'.
Example: ``` Calendar = Calendar(root, date_heading_font_slant='italic') ``` |
176 | | date_heading_font_underline= | Sets the underline of the font used to create the Calendar date heading. Valid options are True or False.
Example: ``` Calendar = Calendar(root, date_heading_font_underline=True) ``` |
177 | | date_heading_font_size= | Sets the font size used to create the Calendar heading. Note: This overrides the default size and scaling of the font.
Example: ``` Calendar = Calendar(root, date_heading_font_size=15) ``` |
178 | | date_text_fill= | Sets the colour of the text numbers associated with the month dates.
Example: ``` Calendar = Calendar(root, date_text_fill='green') ``` |
179 | | date_text_font_family= | Sets the font type used to create the month dates. (Accepts any of the valid native tkinter fonts).
Example: ``` Calendar = Calendar(root, date_text_font_family='Georgia') ``` |
180 | | date_text_font_weight= | Sets the weight of the font used to create the month dates. Valid options are 'normal' or 'bold'.
Example: ``` Calendar = Calendar(root, date_text_font_weight='bold') ``` |
181 | | date_text_font_slant= | Sets the slant of the font used to create the month dates. Valid options are 'roman' or 'italic'.
Example: ``` Calendar = Calendar(root, date_text_font_slant='italic') ``` |
182 | | date_text_font_underline= | Sets the underline of the font used to create the month dates. Valid options are True or False.
Example: ``` Calendar = Calendar(root, date_text_font_underline=True) ``` |
183 | | date_text_font_size= | Sets the font size of the dates on the Calendar month grid. Note: this overrides the default size and scaling of the font.
Example: ``` Calendar = Calendar(root, date_text_font_size=10) ``` |
184 | | trail_box_fill= | Sets the colour of the background of the date boxes that trail into the previous and following months.
Example: ``` Calendar = Calendar(root, trail_box_fill='lime') ``` |
185 | | trail_text_fill= | Sets the colour of the text numbers associated with the trailing date boxes.
Example: ``` Calendar = Calendar(root, trail_text_fill='blue') ``` |
186 | | current_date_highlight= | Toggles the current date highlight on/off. This parameter accepts a True or False value. Example: ``` Calendar = Calendar(root, current_date_highlight=False) ``` |
187 | | date_highlight= | Sets the colour of the permanent date highlight associated with the current date retrieved from the OS.
Example: ``` Calendar = Calendar(root, date_highlight='red') ``` |
188 | | text_highlight_fill= | Sets the colour of the text associated with the permanent date highlight.
Example: ``` Calendar = Calendar(root, text_highlight_fill='pink') ``` |
189 | | user_highlight_colour= | Sets the colour of the highlight that is created when the user clicks on a month date.
Example: ``` Calendar = Calendar(root, user_highlight_colour='magenta') ``` |
190 | | user_highlight_text= | Sets the colour of the text associated with the user highlight.
Example: ``` Calendar = Calendar(root, user_highlight_text='blue') ``` |
191 |
192 |
--------------------------------------------------------------------------------
/LICENSE.md:
--------------------------------------------------------------------------------
1 | GNU LESSER GENERAL PUBLIC LICENSE
2 | Version 2.1, February 1999
3 |
4 | Copyright (C) 1991, 1999 Free Software Foundation, Inc.
5 | 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
6 | Everyone is permitted to copy and distribute verbatim copies
7 | of this license document, but changing it is not allowed.
8 |
9 | [This is the first released version of the Lesser GPL. It also counts
10 | as the successor of the GNU Library Public License, version 2, hence
11 | the version number 2.1.]
12 |
13 | Preamble
14 |
15 | The licenses for most software are designed to take away your
16 | freedom to share and change it. By contrast, the GNU General Public
17 | Licenses are intended to guarantee your freedom to share and change
18 | free software--to make sure the software is free for all its users.
19 |
20 | This license, the Lesser General Public License, applies to some
21 | specially designated software packages--typically libraries--of the
22 | Free Software Foundation and other authors who decide to use it. You
23 | can use it too, but we suggest you first think carefully about whether
24 | this license or the ordinary General Public License is the better
25 | strategy to use in any particular case, based on the explanations below.
26 |
27 | When we speak of free software, we are referring to freedom of use,
28 | not price. Our General Public Licenses are designed to make sure that
29 | you have the freedom to distribute copies of free software (and charge
30 | for this service if you wish); that you receive source code or can get
31 | it if you want it; that you can change the software and use pieces of
32 | it in new free programs; and that you are informed that you can do
33 | these things.
34 |
35 | To protect your rights, we need to make restrictions that forbid
36 | distributors to deny you these rights or to ask you to surrender these
37 | rights. These restrictions translate to certain responsibilities for
38 | you if you distribute copies of the library or if you modify it.
39 |
40 | For example, if you distribute copies of the library, whether gratis
41 | or for a fee, you must give the recipients all the rights that we gave
42 | you. You must make sure that they, too, receive or can get the source
43 | code. If you link other code with the library, you must provide
44 | complete object files to the recipients, so that they can relink them
45 | with the library after making changes to the library and recompiling
46 | it. And you must show them these terms so they know their rights.
47 |
48 | We protect your rights with a two-step method: (1) we copyright the
49 | library, and (2) we offer you this license, which gives you legal
50 | permission to copy, distribute and/or modify the library.
51 |
52 | To protect each distributor, we want to make it very clear that
53 | there is no warranty for the free library. Also, if the library is
54 | modified by someone else and passed on, the recipients should know
55 | that what they have is not the original version, so that the original
56 | author's reputation will not be affected by problems that might be
57 | introduced by others.
58 |
59 | Finally, software patents pose a constant threat to the existence of
60 | any free program. We wish to make sure that a company cannot
61 | effectively restrict the users of a free program by obtaining a
62 | restrictive license from a patent holder. Therefore, we insist that
63 | any patent license obtained for a version of the library must be
64 | consistent with the full freedom of use specified in this license.
65 |
66 | Most GNU software, including some libraries, is covered by the
67 | ordinary GNU General Public License. This license, the GNU Lesser
68 | General Public License, applies to certain designated libraries, and
69 | is quite different from the ordinary General Public License. We use
70 | this license for certain libraries in order to permit linking those
71 | libraries into non-free programs.
72 |
73 | When a program is linked with a library, whether statically or using
74 | a shared library, the combination of the two is legally speaking a
75 | combined work, a derivative of the original library. The ordinary
76 | General Public License therefore permits such linking only if the
77 | entire combination fits its criteria of freedom. The Lesser General
78 | Public License permits more lax criteria for linking other code with
79 | the library.
80 |
81 | We call this license the "Lesser" General Public License because it
82 | does Less to protect the user's freedom than the ordinary General
83 | Public License. It also provides other free software developers Less
84 | of an advantage over competing non-free programs. These disadvantages
85 | are the reason we use the ordinary General Public License for many
86 | libraries. However, the Lesser license provides advantages in certain
87 | special circumstances.
88 |
89 | For example, on rare occasions, there may be a special need to
90 | encourage the widest possible use of a certain library, so that it becomes
91 | a de-facto standard. To achieve this, non-free programs must be
92 | allowed to use the library. A more frequent case is that a free
93 | library does the same job as widely used non-free libraries. In this
94 | case, there is little to gain by limiting the free library to free
95 | software only, so we use the Lesser General Public License.
96 |
97 | In other cases, permission to use a particular library in non-free
98 | programs enables a greater number of people to use a large body of
99 | free software. For example, permission to use the GNU C Library in
100 | non-free programs enables many more people to use the whole GNU
101 | operating system, as well as its variant, the GNU/Linux operating
102 | system.
103 |
104 | Although the Lesser General Public License is Less protective of the
105 | users' freedom, it does ensure that the user of a program that is
106 | linked with the Library has the freedom and the wherewithal to run
107 | that program using a modified version of the Library.
108 |
109 | The precise terms and conditions for copying, distribution and
110 | modification follow. Pay close attention to the difference between a
111 | "work based on the library" and a "work that uses the library". The
112 | former contains code derived from the library, whereas the latter must
113 | be combined with the library in order to run.
114 |
115 | GNU LESSER GENERAL PUBLIC LICENSE
116 | TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
117 |
118 | 0. This License Agreement applies to any software library or other
119 | program which contains a notice placed by the copyright holder or
120 | other authorized party saying it may be distributed under the terms of
121 | this Lesser General Public License (also called "this License").
122 | Each licensee is addressed as "you".
123 |
124 | A "library" means a collection of software functions and/or data
125 | prepared so as to be conveniently linked with application programs
126 | (which use some of those functions and data) to form executables.
127 |
128 | The "Library", below, refers to any such software library or work
129 | which has been distributed under these terms. A "work based on the
130 | Library" means either the Library or any derivative work under
131 | copyright law: that is to say, a work containing the Library or a
132 | portion of it, either verbatim or with modifications and/or translated
133 | straightforwardly into another language. (Hereinafter, translation is
134 | included without limitation in the term "modification".)
135 |
136 | "Source code" for a work means the preferred form of the work for
137 | making modifications to it. For a library, complete source code means
138 | all the source code for all modules it contains, plus any associated
139 | interface definition files, plus the scripts used to control compilation
140 | and installation of the library.
141 |
142 | Activities other than copying, distribution and modification are not
143 | covered by this License; they are outside its scope. The act of
144 | running a program using the Library is not restricted, and output from
145 | such a program is covered only if its contents constitute a work based
146 | on the Library (independent of the use of the Library in a tool for
147 | writing it). Whether that is true depends on what the Library does
148 | and what the program that uses the Library does.
149 |
150 | 1. You may copy and distribute verbatim copies of the Library's
151 | complete source code as you receive it, in any medium, provided that
152 | you conspicuously and appropriately publish on each copy an
153 | appropriate copyright notice and disclaimer of warranty; keep intact
154 | all the notices that refer to this License and to the absence of any
155 | warranty; and distribute a copy of this License along with the
156 | Library.
157 |
158 | You may charge a fee for the physical act of transferring a copy,
159 | and you may at your option offer warranty protection in exchange for a
160 | fee.
161 |
162 | 2. You may modify your copy or copies of the Library or any portion
163 | of it, thus forming a work based on the Library, and copy and
164 | distribute such modifications or work under the terms of Section 1
165 | above, provided that you also meet all of these conditions:
166 |
167 | a) The modified work must itself be a software library.
168 |
169 | b) You must cause the files modified to carry prominent notices
170 | stating that you changed the files and the date of any change.
171 |
172 | c) You must cause the whole of the work to be licensed at no
173 | charge to all third parties under the terms of this License.
174 |
175 | d) If a facility in the modified Library refers to a function or a
176 | table of data to be supplied by an application program that uses
177 | the facility, other than as an argument passed when the facility
178 | is invoked, then you must make a good faith effort to ensure that,
179 | in the event an application does not supply such function or
180 | table, the facility still operates, and performs whatever part of
181 | its purpose remains meaningful.
182 |
183 | (For example, a function in a library to compute square roots has
184 | a purpose that is entirely well-defined independent of the
185 | application. Therefore, Subsection 2d requires that any
186 | application-supplied function or table used by this function must
187 | be optional: if the application does not supply it, the square
188 | root function must still compute square roots.)
189 |
190 | These requirements apply to the modified work as a whole. If
191 | identifiable sections of that work are not derived from the Library,
192 | and can be reasonably considered independent and separate works in
193 | themselves, then this License, and its terms, do not apply to those
194 | sections when you distribute them as separate works. But when you
195 | distribute the same sections as part of a whole which is a work based
196 | on the Library, the distribution of the whole must be on the terms of
197 | this License, whose permissions for other licensees extend to the
198 | entire whole, and thus to each and every part regardless of who wrote
199 | it.
200 |
201 | Thus, it is not the intent of this section to claim rights or contest
202 | your rights to work written entirely by you; rather, the intent is to
203 | exercise the right to control the distribution of derivative or
204 | collective works based on the Library.
205 |
206 | In addition, mere aggregation of another work not based on the Library
207 | with the Library (or with a work based on the Library) on a volume of
208 | a storage or distribution medium does not bring the other work under
209 | the scope of this License.
210 |
211 | 3. You may opt to apply the terms of the ordinary GNU General Public
212 | License instead of this License to a given copy of the Library. To do
213 | this, you must alter all the notices that refer to this License, so
214 | that they refer to the ordinary GNU General Public License, version 2,
215 | instead of to this License. (If a newer version than version 2 of the
216 | ordinary GNU General Public License has appeared, then you can specify
217 | that version instead if you wish.) Do not make any other change in
218 | these notices.
219 |
220 | Once this change is made in a given copy, it is irreversible for
221 | that copy, so the ordinary GNU General Public License applies to all
222 | subsequent copies and derivative works made from that copy.
223 |
224 | This option is useful when you wish to copy part of the code of
225 | the Library into a program that is not a library.
226 |
227 | 4. You may copy and distribute the Library (or a portion or
228 | derivative of it, under Section 2) in object code or executable form
229 | under the terms of Sections 1 and 2 above provided that you accompany
230 | it with the complete corresponding machine-readable source code, which
231 | must be distributed under the terms of Sections 1 and 2 above on a
232 | medium customarily used for software interchange.
233 |
234 | If distribution of object code is made by offering access to copy
235 | from a designated place, then offering equivalent access to copy the
236 | source code from the same place satisfies the requirement to
237 | distribute the source code, even though third parties are not
238 | compelled to copy the source along with the object code.
239 |
240 | 5. A program that contains no derivative of any portion of the
241 | Library, but is designed to work with the Library by being compiled or
242 | linked with it, is called a "work that uses the Library". Such a
243 | work, in isolation, is not a derivative work of the Library, and
244 | therefore falls outside the scope of this License.
245 |
246 | However, linking a "work that uses the Library" with the Library
247 | creates an executable that is a derivative of the Library (because it
248 | contains portions of the Library), rather than a "work that uses the
249 | library". The executable is therefore covered by this License.
250 | Section 6 states terms for distribution of such executables.
251 |
252 | When a "work that uses the Library" uses material from a header file
253 | that is part of the Library, the object code for the work may be a
254 | derivative work of the Library even though the source code is not.
255 | Whether this is true is especially significant if the work can be
256 | linked without the Library, or if the work is itself a library. The
257 | threshold for this to be true is not precisely defined by law.
258 |
259 | If such an object file uses only numerical parameters, data
260 | structure layouts and accessors, and small macros and small inline
261 | functions (ten lines or less in length), then the use of the object
262 | file is unrestricted, regardless of whether it is legally a derivative
263 | work. (Executables containing this object code plus portions of the
264 | Library will still fall under Section 6.)
265 |
266 | Otherwise, if the work is a derivative of the Library, you may
267 | distribute the object code for the work under the terms of Section 6.
268 | Any executables containing that work also fall under Section 6,
269 | whether or not they are linked directly with the Library itself.
270 |
271 | 6. As an exception to the Sections above, you may also combine or
272 | link a "work that uses the Library" with the Library to produce a
273 | work containing portions of the Library, and distribute that work
274 | under terms of your choice, provided that the terms permit
275 | modification of the work for the customer's own use and reverse
276 | engineering for debugging such modifications.
277 |
278 | You must give prominent notice with each copy of the work that the
279 | Library is used in it and that the Library and its use are covered by
280 | this License. You must supply a copy of this License. If the work
281 | during execution displays copyright notices, you must include the
282 | copyright notice for the Library among them, as well as a reference
283 | directing the user to the copy of this License. Also, you must do one
284 | of these things:
285 |
286 | a) Accompany the work with the complete corresponding
287 | machine-readable source code for the Library including whatever
288 | changes were used in the work (which must be distributed under
289 | Sections 1 and 2 above); and, if the work is an executable linked
290 | with the Library, with the complete machine-readable "work that
291 | uses the Library", as object code and/or source code, so that the
292 | user can modify the Library and then relink to produce a modified
293 | executable containing the modified Library. (It is understood
294 | that the user who changes the contents of definitions files in the
295 | Library will not necessarily be able to recompile the application
296 | to use the modified definitions.)
297 |
298 | b) Use a suitable shared library mechanism for linking with the
299 | Library. A suitable mechanism is one that (1) uses at run time a
300 | copy of the library already present on the user's computer system,
301 | rather than copying library functions into the executable, and (2)
302 | will operate properly with a modified version of the library, if
303 | the user installs one, as long as the modified version is
304 | interface-compatible with the version that the work was made with.
305 |
306 | c) Accompany the work with a written offer, valid for at
307 | least three years, to give the same user the materials
308 | specified in Subsection 6a, above, for a charge no more
309 | than the cost of performing this distribution.
310 |
311 | d) If distribution of the work is made by offering access to copy
312 | from a designated place, offer equivalent access to copy the above
313 | specified materials from the same place.
314 |
315 | e) Verify that the user has already received a copy of these
316 | materials or that you have already sent this user a copy.
317 |
318 | For an executable, the required form of the "work that uses the
319 | Library" must include any data and utility programs needed for
320 | reproducing the executable from it. However, as a special exception,
321 | the materials to be distributed need not include anything that is
322 | normally distributed (in either source or binary form) with the major
323 | components (compiler, kernel, and so on) of the operating system on
324 | which the executable runs, unless that component itself accompanies
325 | the executable.
326 |
327 | It may happen that this requirement contradicts the license
328 | restrictions of other proprietary libraries that do not normally
329 | accompany the operating system. Such a contradiction means you cannot
330 | use both them and the Library together in an executable that you
331 | distribute.
332 |
333 | 7. You may place library facilities that are a work based on the
334 | Library side-by-side in a single library together with other library
335 | facilities not covered by this License, and distribute such a combined
336 | library, provided that the separate distribution of the work based on
337 | the Library and of the other library facilities is otherwise
338 | permitted, and provided that you do these two things:
339 |
340 | a) Accompany the combined library with a copy of the same work
341 | based on the Library, uncombined with any other library
342 | facilities. This must be distributed under the terms of the
343 | Sections above.
344 |
345 | b) Give prominent notice with the combined library of the fact
346 | that part of it is a work based on the Library, and explaining
347 | where to find the accompanying uncombined form of the same work.
348 |
349 | 8. You may not copy, modify, sublicense, link with, or distribute
350 | the Library except as expressly provided under this License. Any
351 | attempt otherwise to copy, modify, sublicense, link with, or
352 | distribute the Library is void, and will automatically terminate your
353 | rights under this License. However, parties who have received copies,
354 | or rights, from you under this License will not have their licenses
355 | terminated so long as such parties remain in full compliance.
356 |
357 | 9. You are not required to accept this License, since you have not
358 | signed it. However, nothing else grants you permission to modify or
359 | distribute the Library or its derivative works. These actions are
360 | prohibited by law if you do not accept this License. Therefore, by
361 | modifying or distributing the Library (or any work based on the
362 | Library), you indicate your acceptance of this License to do so, and
363 | all its terms and conditions for copying, distributing or modifying
364 | the Library or works based on it.
365 |
366 | 10. Each time you redistribute the Library (or any work based on the
367 | Library), the recipient automatically receives a license from the
368 | original licensor to copy, distribute, link with or modify the Library
369 | subject to these terms and conditions. You may not impose any further
370 | restrictions on the recipients' exercise of the rights granted herein.
371 | You are not responsible for enforcing compliance by third parties with
372 | this License.
373 |
374 | 11. If, as a consequence of a court judgment or allegation of patent
375 | infringement or for any other reason (not limited to patent issues),
376 | conditions are imposed on you (whether by court order, agreement or
377 | otherwise) that contradict the conditions of this License, they do not
378 | excuse you from the conditions of this License. If you cannot
379 | distribute so as to satisfy simultaneously your obligations under this
380 | License and any other pertinent obligations, then as a consequence you
381 | may not distribute the Library at all. For example, if a patent
382 | license would not permit royalty-free redistribution of the Library by
383 | all those who receive copies directly or indirectly through you, then
384 | the only way you could satisfy both it and this License would be to
385 | refrain entirely from distribution of the Library.
386 |
387 | If any portion of this section is held invalid or unenforceable under any
388 | particular circumstance, the balance of the section is intended to apply,
389 | and the section as a whole is intended to apply in other circumstances.
390 |
391 | It is not the purpose of this section to induce you to infringe any
392 | patents or other property right claims or to contest validity of any
393 | such claims; this section has the sole purpose of protecting the
394 | integrity of the free software distribution system which is
395 | implemented by public license practices. Many people have made
396 | generous contributions to the wide range of software distributed
397 | through that system in reliance on consistent application of that
398 | system; it is up to the author/donor to decide if he or she is willing
399 | to distribute software through any other system and a licensee cannot
400 | impose that choice.
401 |
402 | This section is intended to make thoroughly clear what is believed to
403 | be a consequence of the rest of this License.
404 |
405 | 12. If the distribution and/or use of the Library is restricted in
406 | certain countries either by patents or by copyrighted interfaces, the
407 | original copyright holder who places the Library under this License may add
408 | an explicit geographical distribution limitation excluding those countries,
409 | so that distribution is permitted only in or among countries not thus
410 | excluded. In such case, this License incorporates the limitation as if
411 | written in the body of this License.
412 |
413 | 13. The Free Software Foundation may publish revised and/or new
414 | versions of the Lesser General Public License from time to time.
415 | Such new versions will be similar in spirit to the present version,
416 | but may differ in detail to address new problems or concerns.
417 |
418 | Each version is given a distinguishing version number. If the Library
419 | specifies a version number of this License which applies to it and
420 | "any later version", you have the option of following the terms and
421 | conditions either of that version or of any later version published by
422 | the Free Software Foundation. If the Library does not specify a
423 | license version number, you may choose any version ever published by
424 | the Free Software Foundation.
425 |
426 | 14. If you wish to incorporate parts of the Library into other free
427 | programs whose distribution conditions are incompatible with these,
428 | write to the author to ask for permission. For software which is
429 | copyrighted by the Free Software Foundation, write to the Free
430 | Software Foundation; we sometimes make exceptions for this. Our
431 | decision will be guided by the two goals of preserving the free status
432 | of all derivatives of our free software and of promoting the sharing
433 | and reuse of software generally.
434 |
435 | NO WARRANTY
436 |
437 | 15. BECAUSE THE LIBRARY IS LICENSED FREE OF CHARGE, THERE IS NO
438 | WARRANTY FOR THE LIBRARY, TO THE EXTENT PERMITTED BY APPLICABLE LAW.
439 | EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR
440 | OTHER PARTIES PROVIDE THE LIBRARY "AS IS" WITHOUT WARRANTY OF ANY
441 | KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE
442 | IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
443 | PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE
444 | LIBRARY IS WITH YOU. SHOULD THE LIBRARY PROVE DEFECTIVE, YOU ASSUME
445 | THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
446 |
447 | 16. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN
448 | WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY
449 | AND/OR REDISTRIBUTE THE LIBRARY AS PERMITTED ABOVE, BE LIABLE TO YOU
450 | FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR
451 | CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE
452 | LIBRARY (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING
453 | RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A
454 | FAILURE OF THE LIBRARY TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF
455 | SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
456 | DAMAGES.
457 |
458 | END OF TERMS AND CONDITIONS
459 |
460 | How to Apply These Terms to Your New Libraries
461 |
462 | If you develop a new library, and you want it to be of the greatest
463 | possible use to the public, we recommend making it free software that
464 | everyone can redistribute and change. You can do so by permitting
465 | redistribution under these terms (or, alternatively, under the terms of the
466 | ordinary General Public License).
467 |
468 | To apply these terms, attach the following notices to the library. It is
469 | safest to attach them to the start of each source file to most effectively
470 | convey the exclusion of warranty; and each file should have at least the
471 | "copyright" line and a pointer to where the full notice is found.
472 |
473 |
474 | Copyright (C)
475 |
476 | This library is free software; you can redistribute it and/or
477 | modify it under the terms of the GNU Lesser General Public
478 | License as published by the Free Software Foundation; either
479 | version 2.1 of the License, or (at your option) any later version.
480 |
481 | This library is distributed in the hope that it will be useful,
482 | but WITHOUT ANY WARRANTY; without even the implied warranty of
483 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
484 | Lesser General Public License for more details.
485 |
486 | You should have received a copy of the GNU Lesser General Public
487 | License along with this library; if not, write to the Free Software
488 | Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301
489 | USA
490 |
491 | Also add information on how to contact you by electronic and paper mail.
492 |
493 | You should also get your employer (if you work as a programmer) or your
494 | school, if any, to sign a "copyright disclaimer" for the library, if
495 | necessary. Here is a sample; alter the names:
496 |
497 | Yoyodyne, Inc., hereby disclaims all copyright interest in the
498 | library `Frob' (a library for tweaking knobs) written by James Random
499 | Hacker.
500 |
501 | , 1 April 1990
502 | Ty Coon, President of Vice
503 |
504 | That's all there is to it!
505 |
--------------------------------------------------------------------------------
/tests/img.txt:
--------------------------------------------------------------------------------
1 | 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
--------------------------------------------------------------------------------