Package: lintian
Version: 2.5.79
Severity: normal
Hi!
RTF is an old file format from Microsoft, that was pushed as a means of
"cross-platform interchange". It has never been really widespread, but,
because its simplicity, most Word-like programs support it. Thus, it's
an odd but not entirely irrational decision to ship some documents this
way.
A package that I'm reviewing includes several RTF files in its documentation
(I've attached one), it triggers a false positive for
license-problem-gfdl-invariants (despite correctly declaring no invariants
nor front or back cover texts).
I guess that RTF files could possibly trigger a number of other false
positives in lintian tests that expect real text. As adding proper support
for RTF is obviously not worth the effort, it would be nice if you regarded
them to be binary (despite, like .ps, being technically ASCII).
Meow!
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pn libtext-template-perl <none>
-- no debconf information
{\rtf1\ansi\ansicpg1252\cocoartf102{\fonttbl\f2\fnil Bitstream Charter;\f0\fnil
Droid Sans Mono;\f1\fnil FreeSans;}
{\colortbl;\red0\green0\blue200;\red0\green0\blue0;\red255\green0\blue0;}
{{\NeXTGraphic iconoGimp3.tif \width1816
\height1309}\pard\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720\ql\f0\fs24
\'AC}\f1\fs48 \b\cf1 \'A1Welcome to FisicaLab!\cf0\fs24\b0\cf2 \par
\par
\fs20\i Copyright (C) 2009, 2010, 2012 German A. Arias.\par
Permission is granted to copy, distribute and/or modify this document\par
under the terms of the GNU Free Documentation License, Version 1.3\par
or any later version published by the Free Software Foundation;\par
with no Invariant Sections, no Front-Cover Texts, and no Back-Cover
Texts.\par
A copy of the license is included in the section entitled "GNU\par
Free Documentation License".\fs24\i0 \par
\par
\par
FisicaLab is an educational application to solve physics problems. Its main
objective is let the user to focus in physics concepts, leaving aside the
mathematical details (FisicaLab take care of them). This allows the user to
become familiar with the physical concepts without running the risk of getting
lost in mathematical details. And so, when the user gain confidence in applying
physical concepts, will be better prepared to solve the problems by hand (with
pen and paper). FisicaLab is easy to use and very intuitive. However, in order
to take advantage of all its features, we recommend you read first these help
files.\par
\par
FisicaLab display to two windows, one named \b Modules and elements\b0 and
other named \b Chalkboard\b0 . The first of these windows, contain all modules
that can be used to solve problems. These modules are grouped by: kinematics,
static, dynamics, ... (see image below). You can select one of these groups
with the buttons at the top of the window, marked with (1) in the image. When
you leave the mouse\rquote s cursor above one of these buttons, a label with
the group name is displayed. The buttons marked with (2) let you select the
system of units, SI or English. You can see the modules of the selected group
inside the box marked with (3). The tabs marked with (4) let you select one of
the available modules. The elements of the selected module are displayed inside
the box marked with (5). This elements let you set the problems. Inside the box
marked with (6) you can write the element\rquote s data (if any element is
selected, this box will be empty).\f2 \par
\par
\cf0\f0{{\NeXTGraphic FisicaLabPanel.jpg \width7680
\height10760}\'AC}\f2\cf2 \par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
\f1 The window named \b Chalkboard\b0 (see image below), have at the top two
buttons, marked with (7). The button at the left let you solve the problem, and
the other is to clean the chalkboard. The black box marked with (8) is the
chalkboard, where you add the elements to set the problems. You need keep in
mind, although you can\rquote t see, that the chalkboard is a grid formed with
cells of 50x50 pixels. By default the chalkboard size is 26x18 cells. In \b
Preferences\b0 panel you can change the size to a maximum of 100x100 cells (A
greater size than the default could be useful for trusses problems). The text
view marked with (9) is where FisicaLab show the answer and messages. The
checkbox marked with (10) erase the content of the text view before show the
next answer or message. If you want keep the previous content, unselect this
checkbox. In this case you can add notes to identify the results of the
different problems.\f2 \par
\par
\pard\ql\pard\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720\ql
\cf0\f0{{\NeXTGraphic FisicaLabPizarra.jpg \width8540
\height6680}\'AC}\f2\cf2 \par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
\par
\f1\fs28\b Handling the elements\f2\fs24\b0 \par
\par
\f1 To add elements at the chalkboard, do a click above the desired element.
The mouse\rquote s cursor will become in an open hand, meaning this that we
will add an element. Do a click above the chalkboard in the position where you
want the element, the mouse\rquote s cursor will back at its original shape.
Each time you add a new element, or select one different, a yellow square will
be drawn around the current element. The data of the current element are
displayed, for its edition, at panel \b Modules and elements\b0 . When you
leave the mouse\rquote s cursor above one element in the chalkboard, a label
with the element\rquote s data is displayed. In \b Preferences\b0 panel you
can configure the font size of these labels.\par
\par
\pard\ql\pard\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720\ql
\cf0\f0{{\NeXTGraphic chalkboardProperties.jpg \width9020
\height4600}\'AC}\f1\cf2 \par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
If you want move an element, click above it with the \b Control\b0 key
pressed, the mouse\rquote s cursor will become in a close hand, meaning this
that we are moving an element. Do click in the new position and the
mouse\rquote s cursor will back at its original shape. In other hand, if you
want delete an element, do click above it with the \b Shift\b0 key pressed.\par
\par
Keep in mind that FisicaLab don\rquote t let you combine elements from
different modules. The elements in each module are enough to set a wide variety
of problems.\f2 \par
\par
\par
\f1\fs28\b Element data\f2\fs24\b0 \par
\par
\f1 When you select an element in the chalkboard, or add a new element, you
will see a table at the bottom of the window \b Modules and elements\b0 . With
a double click above any field of the second column, you can write the data.
FisicaLab supports scientific notation, to use this use the letter E. For
example, to write the number 3.45x10-5, write:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
3.45E-5\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
All numerical data must be without spaces. For example, the following numbers
are wrong:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
- 5.3\par
7.8E - 8\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
Also, FisicaLab can use many conversion factors. To use these, add the
character @ before the conversion. If you have selected the SI system,
FisicaLab assumes that all data are in meters, kg, seconds, etc. With the
English system, FisicaLab assumes that all data are in feet, pounds, slugs,
seconds, etc. (in the English system the mass must be in slugs). For example,
if you want write an speed of 75 km/h, use:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
75 @ km/h\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
Here, we have one space before and after the character @, but these are for
clarity, and are not required. Each module has its how conversion factors, as
you can see in the sections that deal about these. \par
\par
You can use letters or words to represent the unknown data. If, for example,
the final velocity is an unknown data, you can represent this like:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
fv\par
finalv\par
fvel\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
or any other combination. But, we recommend you use letters or words that are
related with the unknown data. Also, the conversion factors can be used with
the unknown data. For example, if the time is unknown, and you want this in
minutes, write something like:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
t @ min\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
The scientific notation can be used with the unknowns, adding the characters
#E at the end of the name. For example, for a coefficient of thermal expansion,
that is a small value:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
coefficient#E\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
Also, this can be used with a conversion factor. For example, for a very long
distance that we want in kilometers:\par
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
distance#E @ km\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
All the conversion factors are available in a contextual menu. After select the
row of data where want add the factor, a right mouse click open a context menu
with all available factors.\par
\par
\pard\ql\pard\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720\ql
\cf0\f0{{\NeXTGraphic menuContextual.jpg \width6120
\height5320}\'AC}\f1\cf2 \par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
FisicaLab allows mathematical operations directly on the fields where you enter
data. Can be carried out operations of addition (+), subtraction (-),
multiplication (*) and division (/). Although not allowed to group operations
by parentheses. It also provides some useful functions for certain
calculations. These are listed below with its description:\par
\par
\b cos(ang)\tab \tab Calculates the cosine of the sexagesimal angle "ang".\par
sin(ang)\tab \tab Calculates the sine of the sexagesimal angle "ang".\par
tan(ang)\tab \tab Calculates the tangent of the sexagesimal angle "ang".\par
sqrt(x)\tab \tab Calculates the square root of the number "x".\par
hypot(a,b)\tab Calculates the hypotenuse of a right triangle whose legs are "a"
and "b".\par
leg(c,a)\tab \tab Calculates the leg of the right triangle whose hypotenuse is
"c" and the\par
\tab \tab \tab other leg is "a".\par
rd(m1,m2,d)\tab Calculates the distance of the mass "m1" to the center of mass
of the\par
\tab \tab \tab system consisting of the masses "m1" and "m2", which are spaced
a\par
\tab \tab \tab distance "d".\b0 \par
\par
The numbers that are passed as parameters to these functions must have
consistent units. For example, in the \b hypot()\b0 function both legs must be
in the same units, whether centimeters, meters, inches, etc. These functions
can be used in operations of addition, subtraction, multiplication and
division. In these operations blank spaces are not allowed. Here are some
examples:\par
\par
\pard\ql\b\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\qc
8*cos(34)\par
hypot(4,3)-2\par
rd(3,6,40)*sin(30) @ cm\par
15*8/hypot(13,8)\b0 \par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
Once entered the operation, FisicaLab will do the calculation and will write
the result in the entry. Note that is possible to apply conversion factors.
Although these can also be applied after carrying out the calculation.\par
\par
The fields where you enter angles do not allow the operations and functions
described above. This is because these fields have their own operations and
functions. For example, FisicaLab allows write the angles as slopes (a/b), and
automatically convert this to sexagesimal angles. What is very useful for
problems of trusses.\par
\par
\pard\ql\pard\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720\ql
\cf0\f0{{\NeXTGraphic angulos.jpg \width5080 \height2660}\'AC}\f1\cf2
\par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
For these fields are available two functions that calculates an angle from
other relationships. These functions are:\par
\par
\b acos(a/c)\tab Calculates the sexagesimal angle whose cosine is the ratio
"a/c".\par
asin(b/c)\tab \tab Calculates the sexagesimal angle whose sine is the ratio
"b/c".\b0 \par
\par
If an operation is entered incorrectly, for example if it contains spaces or
contains a function with an incorrect number of parameters, FisicaLab will do
nothing and will take that string as an unknown.\par
\par
\par
\b Caution:\b0 \cf0\cf3 If, for example, you add a mass conversion factor in a
time data, this will cause an error in the solution. And you will not get a
message about this error.\cf0\f2\cf2 \par
\par
\par
\f1\fs28\b How it works\f2\fs24\b0 \par
\par
\f1 FisicaLab work over the base of \i number of equations = number of unknown
data\i0 . In general you don\rquote t need worry about this. But in some cases
you will see the error \b "The system is undetermined"\b0 . This occurs when
you write numeric data in a field that must be an unknown data. The examples
show this cases.\f2 \par
\par
\par
\f1\fs28\b Messages\f2\fs24\b0 \par
\par
\f1 FisicaLab write a wide variety of messages in the text view when a problem
is wrong. However, you always will see a message about the calculation\rquote s
status, as you can see in the following image:\par
\par
\pard\ql\f0\pard\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720\ql
\cf0{{\NeXTGraphic cinema44.tif \width4760 \height800}\'AC}\f1\cf2 \par
\pard\ql\pard\tx0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\ql
\par
The last line say \b "State = success"\b0 , meaning that the calculation was
successful. Any other status different as \i success\i0 , mean that or the set
problem don\rquote t have a solution, or an unexpected error occurred.\par
\par
}
