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-rw-r--r--t/test1.chn14
-rw-r--r--t/test2.chn19
-rw-r--r--t/test3.chn9
-rw-r--r--t/test4.chn65
4 files changed, 0 insertions, 107 deletions
diff --git a/t/test1.chn b/t/test1.chn
deleted file mode 100644
index f55fb70..0000000
--- a/t/test1.chn
+++ /dev/null
@@ -1,14 +0,0 @@
-{@define}{@author}{Thomas Albers Raviola}%
-{@define}{@today}{May 12, 2024}%
-{@define}{@printdate}{{@lambda}{@date}{the date is @date}}%
-{@section}{Introduction}
-
-Hello, this is a sample of a program written in chains
-
-Chains was created by @author to help him write articles of questionable
-usefulness.
-
-{@printdate}{@today}
-{@section}[Conclusion]
-
-idk man, guess it works, don't it?
diff --git a/t/test2.chn b/t/test2.chn
deleted file mode 100644
index a637b61..0000000
--- a/t/test2.chn
+++ /dev/null
@@ -1,19 +0,0 @@
-{@define}{@html-element}{{@lambda}{@name}{{@lambda}{@attr @content}{<@name @attr>
-@content
-</@name>}}}%
-%
-%
-{@define}{@html-html}{{@html-element}{html}}%
-{@define}{@html-head}{{@html-element}{head}}%
-{@define}{@html-body}{{@html-element}{body}}%
-{@define}{@html-title}{{@html-element}{title}}%
-{@define}{@html-h1}{{@html-element}{h1}}%
-{@define}{@html-p}{{@html-element}{p}}%
-%
-%
-{@html-html}{}{%
-{@html-head}{}{{@html-title}{}{Website}}%
-
-{@html-body}{}{
-{@html-h1}{}{Chains test}
-{@html-p}{}{Hello World!}}}
diff --git a/t/test3.chn b/t/test3.chn
deleted file mode 100644
index 2fbdeab..0000000
--- a/t/test3.chn
+++ /dev/null
@@ -1,9 +0,0 @@
-@define{@define-function}{@syntax{@name @args @body}{@define{@name}{@lambda{@args}{@body}}}}%
-@define-function{@foo}{@a @b}{hola @b}%
-@foo{mundo}{casa}
-@define{@section}{@lambda*{@title}{@gp{@quote{@section}}}{@title@siblings@title
-}}%
-@section{Hello World}
-hola
-@section{Good Bye World}
-chao
diff --git a/t/test4.chn b/t/test4.chn
deleted file mode 100644
index e126091..0000000
--- a/t/test4.chn
+++ /dev/null
@@ -1,65 +0,0 @@
-{@define}{@title}{Method for solving first order and Bernoulli's differential equations}
-{@define}{@author}{Thomas Albers Raviola}
-{@define}{@date}{2022-10-01}
-%
-{@template}
-{@section}{History}
-I came across the method concerning this article in an old math book from Doctor
-Granville (Elements of differential and integral calculus - ISBN-13:
-978-968-18-1178-5). It doesn't appear to be a popular technique as when using it
-for my assignments I always had to explain what I was doing. As of yet, I still
-haven't found another text referencing it, which is why I decided to include it
-in my website.
-
-In the original book this procedure is shown but never really explained, it is
-left as a sort of "it just works" thing. Here is my attempt to it clear.
-
-{@section}{Theory}
-Throughout this article we'll consider first order differential equations with
-function coefficients just as a special case of the Bernoulli's differential
-equation with {@eq*}{n = 0}.
-
-Consider now the following ODE:
-{@equation}{
-y' + P(x)y = Q(x)y^n
-}
-
-let {@eq*}{y} be the product of two arbitrary functions {@eq*}{w} and {@eq*}{z}
-such that
-
-{@equation}{
-y &= wz \\
-y' &= w'z + wz'
-}
-
-we now restrict {@eq*}{z} to be the solution of the ODE
-
-{@equation}{
-z' + P(x)z = 0
-}
-
-with this it is possible to solve for {@eq*}{z} by integrating
-
-{@equation}{
-\frac{z'}{z} = - P(x)
-}
-
-using {@eq}{z} we solve for {@eq}{w} by replacing {@eq}{y} inside the original
-ODE
-
-{@align}{
-w'z + wz' + P(x)wz &= Q(x)w^nz^n \\
-w'z + w\left(z' + P(x)z\right) &= Q(x)w^nz^n \\
-w'z &= Q(x)w^nz^n \\
-\frac{w'}{w^n} &= Q(x)z^{n-1}
-}
-
-the general solution to our original ODE can be simply obtained by multiplying
-{@eq*}{w} and {@eq*}{z}.
-
-{@section}{Comments}
-This method, while functional, may not always be the most practical. In some
-cases the differential equations for $w$ and $z$ may not have closed algebraic
-solutions. A more traditional substitution may in some situations also be easier
-than this method. Like always it is up to one to know which tool to apply for a
-given problem.