From dfed1385550cb9881aaf7183e36cde02f6832312 Mon Sep 17 00:00:00 2001
From: Zolo Zithro <128822489+ZoloZithro@users.noreply.github.com>
Date: Thu, 30 Mar 2023 09:40:13 -0400
Subject: [PATCH] Exercise 094: Correct spelling and grammar
---
exercises/094_c_math.zig | 24 ++++++++++++------------
1 file changed, 12 insertions(+), 12 deletions(-)
diff --git a/exercises/094_c_math.zig b/exercises/094_c_math.zig
index b8e65a3..3815cb0 100644
--- a/exercises/094_c_math.zig
+++ b/exercises/094_c_math.zig
@@ -1,19 +1,19 @@
//
-// Often C functions are used where no equivalent Zig function exists
-// yet. Since the integration of a C function is very simple as already
+// Often, C functions are used where no equivalent Zig function exists
+// yet. Since the integration of a C function is very simple, as already
// seen in the last exercise, it naturally offers itself to use the
-// very large variety of C functions for the own programs.
-// In addition immediately an example:
+// very large variety of C functions for our own programs.
+// As an example:
//
// Let's say we have a given angle of 765.2 degrees. If we want to
// normalize that, it means that we have to subtract X * 360 degrees
// to get the correct angle. How could we do that? A good method is
// to use the modulo function. But if we write "765.2 % 360", it won't
// work, because the standard modulo function works only with integer
-// values. In the C library "math" there is a function called "fmod".
-// The "f" stands for floating and means that we can solve modulo for
-// real numbers. With this function it should be possible to normalize
-// our angel. Let's go.
+// values. In the C library "math", there is a function called "fmod";
+// the "f" stands for floating and means that we can solve modulo for
+// real numbers. With this function, it should be possible to normalize
+// our angle. Let's go.
const std = @import("std");
@@ -23,12 +23,12 @@ const c = @cImport({
});
pub fn main() !void {
- const angel = 765.2;
+ const angle = 765.2;
const circle = 360;
- // Here we call the C function 'fmod' to get our normalized angel.
- const result = c.fmod(angel, circle);
+ // Here we call the C function 'fmod' to get our normalized angle.
+ const result = c.fmod(angle, circle);
// We use formatters for the desired precision and to truncate the decimal places
- std.debug.print("The normalized angle of {d: >3.1} degrees is {d: >3.1} degrees.\n", .{ angel, result });
+ std.debug.print("The normalized angle of {d: >3.1} degrees is {d: >3.1} degrees.\n", .{ angle, result });
}