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Didnt Read Readme 9f1b148f37 Merge branch 'master' of https://gitea.silias.ch/Roman_Schenk/snp-lab-code 2022-04-20 08:07:24 +02:00
Didnt Read Readme a44fb08dd5 Bis Aufgabe 5 gelösst. 2022-04-20 08:06:47 +02:00
schrom01 d45c995383 updated P07 PDF 2022-04-20 08:00:52 +02:00
Didnt Read Readme 6d147b1b65 Praktikum 07 Aufgaben 1,2 ausgeführt. 2022-04-19 14:15:34 +02:00
Andrin Fassbind 6c94df5e4d Upload files to 'P06_Lösung_Andrin' 2022-04-07 14:24:54 +02:00
Andrin Fassbind e54dc6a4d5 Upload files to 'P06_Lösung_Andrin' 2022-04-07 14:24:13 +02:00
Roman Schenk 070f69d499 Update 'P06_Personen_Verwaltung_Linked_List/work/personen-verwaltung/src/read.c' 2022-04-06 21:44:03 +02:00
Roman Schenk 762a5aa2bf Update 'P06_Personen_Verwaltung_Linked_List/work/personen-verwaltung/src/main.c'
changed Main in Praktikum 6
2022-04-06 21:40:13 +02:00
Didnt Read Readme a87f7f8217 Praktikum 06 bearbeitet 2022-04-06 21:21:31 +02:00
Didnt Read Readme ae13c0695a Praktikum 6 begonnen 2022-04-05 22:56:14 +02:00
romanschenk37 ed8ce218b1 Create Model Andrin.c 2022-03-23 16:30:32 +01:00
romanschenk37 2d00a6caf5 Create Sorter Andrin.c 2022-03-23 16:29:32 +01:00
romanschenk37 4627d6994a Update Makefile Andrin 2022-03-23 16:28:20 +01:00
romanschenk37 04b3b86afb Create Makefile Andrin 2022-03-23 16:27:18 +01:00
romanschenk37 ed17cd6986 Create Makefile Andrin 2022-03-23 16:26:14 +01:00
Didnt Read Readme d61f347663 P05-Sorter 2022-03-23 16:14:51 +01:00
Didnt Read Readme 9df8f350f1 Korrektur in Aufgabe1 2022-03-16 16:38:09 +01:00
Didnt Read Readme 5514c48754 Aufgabe 1 abgeschlossen 2022-03-16 16:05:24 +01:00
Didnt Read Readme 826ed82258 Praktikum 4 weitergearbeitet 2022-03-16 15:50:13 +01:00
Didnt Read Readme d4c2ce5bc4 Praktikum 4 angefangen 2022-03-16 13:47:12 +01:00
Didnt Read Readme aac55ce473 Praktikas 1-3 hinzugefügt 2022-03-15 08:55:38 +01:00
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bazz af986157d2 -lm an den Schluss verschoben 2022-03-09 14:58:42 +01:00
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stsh 2a2bfe8307 Merge branch 'master' of github.zhaw.ch:SNP/snp-lab-code 2022-03-08 08:05:41 +01:00
stsh 6ab9ac6200 add changes from huno from yesterday 2022-03-08 08:05:33 +01:00
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stsh 6699c08adc Merge branch 'master' of github.zhaw.ch:SNP/snp-lab-code 2022-03-08 07:57:22 +01:00
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bazz 161f451a59 ... 2022-03-02 00:21:25 +01:00
bazz 946b940a50 ... more dedugging ... 2022-03-02 00:13:52 +01:00
bazz f0b940cff3 Merge branch 'master' of https://github.zhaw.ch/SNP/snp-lab-code 2022-03-02 00:10:31 +01:00
bazz 33845ca8a6 de-crap part 2 !!!!!!!!
lab needs some more debugging before FS23!
2022-03-02 00:10:28 +01:00
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bazz 24eff20905 Merge branch 'master' of https://github.zhaw.ch/SNP/snp-lab-code 2022-03-01 23:31:39 +01:00
bazz 17f3e719ba debug lab 2
...
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stsh beb60bdf97 still need to fix html code table 2022-03-01 14:57:59 +01:00
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stsh 71ab7db1ba Update sphinx.mk 2022-03-01 14:29:33 +01:00
Prosper Leibundgut 820e4350d7 Added template code to lab2, request from bazz. 2022-02-23 14:26:05 +01:00
huno bd5311d12c P04 Modularisieren von C Code: add missing files for build system for task modularize 2022-02-23 00:11:55 +01:00
huno 23f8d9f07e P04 Modularisieren von C Code: remove stale draft and old Praktika description 2022-02-22 23:44:39 +01:00
huno 287351d945 P04 Modularisieren von C Code: update code to new Praktika description 2022-02-22 23:44:39 +01:00
Prosper Leibundgut e205764c6d Reverted changes of the shared.mk inclusion. 2022-02-22 00:06:08 +01:00
Prosper Leibundgut c676883d30 Added testlib, root Makefile and shared.mk with a special view towards laboratories 04, 05, 06. Renamed Stash's Sphinx build files. To be cleared out with @stsh. Altered Makefiles which include the shared.mk for the new repository name, snp-lab-code. 2022-02-21 19:16:17 +01:00
bazz 98e2167f81 Delete demo.c 2022-02-18 18:08:05 +01:00
bazz c795e321e3 Delete demo.exe
crap-code
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bazz 52686ad7e7 Update main.c
deleteted crap-code and solution parts
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stsh 7f81ef9f48 add link to env 2022-02-18 07:37:05 +01:00
stsh b44eae3285 merge from SNP/snp welo 2022-02-18 07:35:04 +01:00
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donn b2a29723eb Update README.md 2022-02-17 13:27:36 +01:00
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451 changed files with 48489 additions and 2633 deletions

52
.gitignore vendored
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# Prerequisites
*.d
# Object files
*.o
*.ko
*.obj
*.elf
# Linker output
*.ilk
*.map
*.exp
# Precompiled Headers
*.gch
*.pch
# Libraries
*.lib
*.a
*.la
*.lo
# Shared objects (inc. Windows DLLs)
*.dll
*.so
*.so.*
*.dylib
# Executables
*.exe
*.out
*.app
*.i*86
*.x86_64
*.hex
# Debug files
*.dSYM/
*.su
*.idb
*.pdb
# Kernel Module Compile Results
*.mod*
*.cmd
.tmp_versions/
modules.order
Module.symvers
Mkfile.old
dkms.conf

0
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#!/bin/bash
# produces a tabular output of all executables as found over the $PATH environment variable
# - output format: [1-based index of $PATH entry]:[$PATH entry]:[name of the executable]
# - e.g. 6:/bin:bash
# - the first argument (if given) is used as alternative to $PATH (e.g. for testing purposes)
# usage: ./get-exec-list-arg.sh # examines $PATH
# usage: ./get-exec-list-arg.sh "$PATH" # equivalent to the above call
# usage: ./get-exec-list-arg.sh ".:~/bin" # examines the current directory (.) and ~/bin
# argument handling
path="$1"
[ -n "$path" ] || path="$PATH"
# input-field-separator: tells the shell to split in the 'for' loop the $var by ":"
IFS=":"
for p in $path
do
i=$((i+1))
[ -n "$p" ] || p="."
if [ -d "$p" ] && [ -x "$p" ]
then
find -L "$p" -maxdepth 1 -type f -executable -printf "$i:%h:%f\n" 2>/dev/null
fi
done

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#!/bin/bash
# produces a crude HTML table from a tabular file (given on stdin) with columns separated by ":"
# usage: tab2html < inbut.txt > output.html
awk $* -- '
BEGIN {
FS=":" # field-separator: which character separats fields in a record (i.e. in a line)
print "<!DOCTYPE html>"
print "<html>"
print " <head>"
print " <style>"
print " table{border:1px solid black;border-collapse:collapse;}"
print " tr:nth-child(even){background-color: #f2f2f2;}"
print " td{border:1px solid black;padding:15px;}"
print " </style>"
print " <title>Tabular Data</title>"
print " </head>"
print " <body>"
print " <div style=\"overflow-x:auto;\">"
print " <table>"
}
{
print " <tr>"
for (i = 1; i <= NF; i++) { print " <td>"$i"</td>" }
print " </tr>"
}
END {
print " </table>"
print " </div>"
print " </body>"
print "</html>"
}
'

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#!/bin/bash
# produces an XML file from a tabular file (given on stdin) with columns separated by ":"
# usage: tab2xml < inbut.txt > output.xml
awk $* -- '
BEGIN {
FS=":" # field-separator: which character separats fields in a record (i.e. in a line)
print "<?xml version=\"1.0\" standalone=\"yes\"?>"
print "<Table>"
}
{
print " <Row>"
for (i = 1; i <= NF; i++) { print " <Col>"$i"</Col>" }
print " </Row>"
}
END {
print "</Table>"
}
'

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# Default ignored files
/shelf/
/workspace.xml
# Editor-based HTTP Client requests
/httpRequests/
# Datasource local storage ignored files
/dataSources/
/dataSources.local.xml

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Praktikum1

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<?xml version="1.0" encoding="UTF-8"?>
<module classpath="CMake" type="CPP_MODULE" version="4" />

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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="CMakeWorkspace" PROJECT_DIR="$PROJECT_DIR$" />
</project>

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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/.idea/P01_Erste_Schritte_mit_C.iml" filepath="$PROJECT_DIR$/.idea/P01_Erste_Schritte_mit_C.iml" />
</modules>
</component>
</project>

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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="$PROJECT_DIR$/.." vcs="Git" />
</component>
</project>

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cmake_minimum_required(VERSION 3.21)
project(Praktikum1 C)
set(CMAKE_C_STANDARD 11)
add_executable(Praktikum1
P1_aufgabe3.c
P1_aufgabe4.c
P1_helloworld.c)

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#include <stdio.h>
#include <stdlib.h>
#define NUM_ROWS 5
int main(void) {
int value = 0;
int row = 0;
double umrechnungsfaktor = 0.0;
(void)printf("Enter conversion rate (1.00 BTC -> CHF): ");
scanf("%lf", &umrechnungsfaktor);
for(row = 1; row <= NUM_ROWS; row += 1) {
value += 200;
(void)printf("%d CHF <--> %f BTC \n", value, value / umrechnungsfaktor);
}
return EXIT_SUCCESS;
}

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#include <stdio.h>
#include <stdlib.h>
int main(void) {
int words = 0;
(void)printf("Enter your Text: ");
while(getchar() != "\n") {
words ++;
}
(void)printf(%d, words);
//scanf("%lf", &Text);
return EXIT_SUCCESS;
}

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#include <stdio.h>
#include <stdlib.h>
int main(void) {
(void)printf("Hello World in C\n");
return EXIT_SUCCESS;
}

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# 01 - Erste Schritte mit C
___
## 1. Übersicht
In diesem Praktikum erstellen Sie mehrere kleine C-Programme, in denen Sie Input- und Output-Funktionen der C Standard Library verwenden.
Arbeiten Sie in Zweiergruppen und diskutieren Sie ihre Lösungsansätze miteinander, bevor Sie diese umsetzen.
Bevor Sie mit den Programmieraufgaben beginnen, setzen Sie eine virtuelle Maschine mit der vorbereiteten Praktikumsumgebung auf. Die entsprechende Anleitung finden Sie hier: [https://github.zhaw.ch/SNP/snp-lab-env/blob/master/docs/Arbeitsumgebung_f%C3%BCr_die_Praktika.pdf](https://github.zhaw.ch/SNP/snp-lab-env/blob/master/docs/Arbeitsumgebung_f%C3%BCr_die_Praktika.pdf).
___
## 2. Lernziele
In diesem Praktikum schreiben Sie selbst von Grund auf einige einfache C-Programme und wenden verschiedene Kontrollstrukturen an.
- Sie können mit *#include* Funktionen der C Standard Library einbinden
- Sie können mit *#define* Macros definieren und diese anwenden
- Sie wenden die *Input-* und *Output-Funktionen* von C an, um Tastatur-Input einzulesen und formatierte Ausgaben zu machen.
- Sie verwenden die Kommandozeile, um ihren Sourcecode in ein ausführbares Programm umzuwandeln.
- Sie wenden for-und while-Loops sowie if-then-else-Verzweigungen an.
- Sie setzen eine Programmieraufgabe selbständig in ein funktionierendes Programm um.
___
## 3. Aufgabe 1: virtuelle Maschine
Im Moodle-Kurs "Systemnahe Programmierung" finden Sie unter "Praktika" eine Installationsanleitung für die virtuelle Maschine, die wir Ihnen zur Verfügung stellen. Die virtuelle Maschine enthält ein Ubuntu Linux-Betriebssystem und die für das Praktikum benötigten Frameworks.
Folgen sie der Anleitung, um die virtuelle Maschine auf ihrem Rechner zu installieren.
___
## 4. Aufgabe 2: Hello World
Schreiben Sie ein C-Programm, das "Hello World" auf die Standardausgabe schreibt. Verwenden Sie die printf-Funktion aus der Standard Library. In den Vorlesungsfolien finden Sie bei Bedarf eine Vorlage.
Erstellen sie das Source-File mit einem beliebigen Editor, sie benötigen nicht unbedingt eine IDE. Speichern Sie das Source-File mit der Endung `.c`.
Um ihr Source-File zu kompilieren, verwenden Sie den GNU Compiler auf der Kommandozeile:
``` sh
$> gcc hello.c
```
Der Compiler übersetzt ihr Programm in eine ausführbare Datei `a.out`, die Sie mit
``` sh
$> ./a.out
```
ausführen können. Sie können den Namen der ausführbaren Datei wählen, indem Sie die Option `-o` verwenden:
``` sh
$> gcc hello.c -o hello
```
erzeugt die ausführbare Datei `hello`.
Verwenden Sie die Option `-Wall`, um alle Warnungen des Compilers auszugeben. Dies weist Sie auf allfällige Programmierfehler hin.
___
## 5. Aufgabe 3: Tabellenausgabe
Schreiben Sie ein Programm in C, das von `stdin` einen Umrechnungsfaktor zwischen CHF und Bitcoin einliest und danach eine Tabelle von Franken- und Bitcoin-Beträgen ausgibt. Die Tabelle soll sauber formatiert sein, z.B. so:
```
Enter conversion rate (1.00 BTC -> CHF): 43158.47
200 CHF <--> 0.00463 BTC
400 CHF <--> 0.00927 BTC
600 CHF <--> 0.01390 BTC
800 CHF <--> 0.01854 BTC
1000 CHF <--> 0.02317 BTC
1200 CHF <--> 0.02780 BTC
1400 CHF <--> 0.03244 BTC
1600 CHF <--> 0.03707 BTC
```
- Verwenden Sie eine Schleife und die `printf`-Funktion für die Tabellenausgabe
- Definieren Sie ein Makro `NUM_ROWS`, um an zentraler Stelle im Source-Code zu definieren, wie viele Einträge die Tabelle in der Ausgabe haben soll.
- Lesen Sie den Umrechnungsfaktor mit der `scanf`-Funktion als `double` von der Kommandozeile ein.
___
## 6. Aufgabe 4: Zeichen und Wörter zählen
Schreiben Sie ein C-Programm, welches die Zeichen und Wörter einer mit der Tastatur eingegebenen Zeile zählt. Wortzwischenräume sind entweder Leerzeichen (' ') oder Tabulatoren ('\t'). Die Eingabe der Zeile mit einem newline-character ('\n') abgeschlossen. Danach soll ihr Programm die Anzahl Zeichen und die Anzahl Wörter ausgeben und terminieren.
- Verwenden Sie die `char getchar(void)` Funktion aus der `stdio.h` Library, um die Zeichen einzeln einzulesen. Die Funktion `getchar` kehrt nicht gleich bei Eingabe des ersten Zeichens zurück, sondern puffert die Daten, bis die Eingabe einer kompletten Zeile mit Return abgeschlossen wird. Dann wird das erste Zeichen aus dem Puffer zurückgegeben und mit weiteren Aufrufen von getchar können die nachfolgenden Zeichen aus dem Puffer gelesen werden. Gibt `getchar` das Zeichen `\n` zurück, ist die Zeile komplett zurückgegeben und der Puffer ist wieder leer.
- Setzen Sie eine Schleife ein, die beim Zeichen '\n' terminiert.
- Benutzen Sie if-then-else-Strukturen um die Wörter zu zählen.
___
## 7. Bewertung
Die gegebenenfalls gestellten Theorieaufgaben und der funktionierende Programmcode müssen der Praktikumsbetreuung gezeigt werden. Die Lösungen müssen mündlich erklärt werden.

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#if defined(__GNUC__)
# define SIMULATE_VERSION_MAJOR DEC(__GNUC__)
#elif defined(__GNUG__)
# define SIMULATE_VERSION_MAJOR DEC(__GNUG__)
#endif
#if defined(__GNUC_MINOR__)
# define SIMULATE_VERSION_MINOR DEC(__GNUC_MINOR__)
#endif
#if defined(__GNUC_PATCHLEVEL__)
# define SIMULATE_VERSION_PATCH DEC(__GNUC_PATCHLEVEL__)
#endif
#elif defined(__PATHCC__)
# define COMPILER_ID "PathScale"
# define COMPILER_VERSION_MAJOR DEC(__PATHCC__)
# define COMPILER_VERSION_MINOR DEC(__PATHCC_MINOR__)
# if defined(__PATHCC_PATCHLEVEL__)
# define COMPILER_VERSION_PATCH DEC(__PATHCC_PATCHLEVEL__)
# endif
#elif defined(__BORLANDC__) && defined(__CODEGEARC_VERSION__)
# define COMPILER_ID "Embarcadero"
# define COMPILER_VERSION_MAJOR HEX(__CODEGEARC_VERSION__>>24 & 0x00FF)
# define COMPILER_VERSION_MINOR HEX(__CODEGEARC_VERSION__>>16 & 0x00FF)
# define COMPILER_VERSION_PATCH DEC(__CODEGEARC_VERSION__ & 0xFFFF)
#elif defined(__BORLANDC__)
# define COMPILER_ID "Borland"
/* __BORLANDC__ = 0xVRR */
# define COMPILER_VERSION_MAJOR HEX(__BORLANDC__>>8)
# define COMPILER_VERSION_MINOR HEX(__BORLANDC__ & 0xFF)
#elif defined(__WATCOMC__) && __WATCOMC__ < 1200
# define COMPILER_ID "Watcom"
/* __WATCOMC__ = VVRR */
# define COMPILER_VERSION_MAJOR DEC(__WATCOMC__ / 100)
# define COMPILER_VERSION_MINOR DEC((__WATCOMC__ / 10) % 10)
# if (__WATCOMC__ % 10) > 0
# define COMPILER_VERSION_PATCH DEC(__WATCOMC__ % 10)
# endif
#elif defined(__WATCOMC__)
# define COMPILER_ID "OpenWatcom"
/* __WATCOMC__ = VVRP + 1100 */
# define COMPILER_VERSION_MAJOR DEC((__WATCOMC__ - 1100) / 100)
# define COMPILER_VERSION_MINOR DEC((__WATCOMC__ / 10) % 10)
# if (__WATCOMC__ % 10) > 0
# define COMPILER_VERSION_PATCH DEC(__WATCOMC__ % 10)
# endif
#elif defined(__SUNPRO_C)
# define COMPILER_ID "SunPro"
# if __SUNPRO_C >= 0x5100
/* __SUNPRO_C = 0xVRRP */
# define COMPILER_VERSION_MAJOR HEX(__SUNPRO_C>>12)
# define COMPILER_VERSION_MINOR HEX(__SUNPRO_C>>4 & 0xFF)
# define COMPILER_VERSION_PATCH HEX(__SUNPRO_C & 0xF)
# else
/* __SUNPRO_CC = 0xVRP */
# define COMPILER_VERSION_MAJOR HEX(__SUNPRO_C>>8)
# define COMPILER_VERSION_MINOR HEX(__SUNPRO_C>>4 & 0xF)
# define COMPILER_VERSION_PATCH HEX(__SUNPRO_C & 0xF)
# endif
#elif defined(__HP_cc)
# define COMPILER_ID "HP"
/* __HP_cc = VVRRPP */
# define COMPILER_VERSION_MAJOR DEC(__HP_cc/10000)
# define COMPILER_VERSION_MINOR DEC(__HP_cc/100 % 100)
# define COMPILER_VERSION_PATCH DEC(__HP_cc % 100)
#elif defined(__DECC)
# define COMPILER_ID "Compaq"
/* __DECC_VER = VVRRTPPPP */
# define COMPILER_VERSION_MAJOR DEC(__DECC_VER/10000000)
# define COMPILER_VERSION_MINOR DEC(__DECC_VER/100000 % 100)
# define COMPILER_VERSION_PATCH DEC(__DECC_VER % 10000)
#elif defined(__IBMC__) && defined(__COMPILER_VER__)
# define COMPILER_ID "zOS"
/* __IBMC__ = VRP */
# define COMPILER_VERSION_MAJOR DEC(__IBMC__/100)
# define COMPILER_VERSION_MINOR DEC(__IBMC__/10 % 10)
# define COMPILER_VERSION_PATCH DEC(__IBMC__ % 10)
#elif defined(__ibmxl__) && defined(__clang__)
# define COMPILER_ID "XLClang"
# define COMPILER_VERSION_MAJOR DEC(__ibmxl_version__)
# define COMPILER_VERSION_MINOR DEC(__ibmxl_release__)
# define COMPILER_VERSION_PATCH DEC(__ibmxl_modification__)
# define COMPILER_VERSION_TWEAK DEC(__ibmxl_ptf_fix_level__)
#elif defined(__IBMC__) && !defined(__COMPILER_VER__) && __IBMC__ >= 800
# define COMPILER_ID "XL"
/* __IBMC__ = VRP */
# define COMPILER_VERSION_MAJOR DEC(__IBMC__/100)
# define COMPILER_VERSION_MINOR DEC(__IBMC__/10 % 10)
# define COMPILER_VERSION_PATCH DEC(__IBMC__ % 10)
#elif defined(__IBMC__) && !defined(__COMPILER_VER__) && __IBMC__ < 800
# define COMPILER_ID "VisualAge"
/* __IBMC__ = VRP */
# define COMPILER_VERSION_MAJOR DEC(__IBMC__/100)
# define COMPILER_VERSION_MINOR DEC(__IBMC__/10 % 10)
# define COMPILER_VERSION_PATCH DEC(__IBMC__ % 10)
#elif defined(__NVCOMPILER)
# define COMPILER_ID "NVHPC"
# define COMPILER_VERSION_MAJOR DEC(__NVCOMPILER_MAJOR__)
# define COMPILER_VERSION_MINOR DEC(__NVCOMPILER_MINOR__)
# if defined(__NVCOMPILER_PATCHLEVEL__)
# define COMPILER_VERSION_PATCH DEC(__NVCOMPILER_PATCHLEVEL__)
# endif
#elif defined(__PGI)
# define COMPILER_ID "PGI"
# define COMPILER_VERSION_MAJOR DEC(__PGIC__)
# define COMPILER_VERSION_MINOR DEC(__PGIC_MINOR__)
# if defined(__PGIC_PATCHLEVEL__)
# define COMPILER_VERSION_PATCH DEC(__PGIC_PATCHLEVEL__)
# endif
#elif defined(_CRAYC)
# define COMPILER_ID "Cray"
# define COMPILER_VERSION_MAJOR DEC(_RELEASE_MAJOR)
# define COMPILER_VERSION_MINOR DEC(_RELEASE_MINOR)
#elif defined(__TI_COMPILER_VERSION__)
# define COMPILER_ID "TI"
/* __TI_COMPILER_VERSION__ = VVVRRRPPP */
# define COMPILER_VERSION_MAJOR DEC(__TI_COMPILER_VERSION__/1000000)
# define COMPILER_VERSION_MINOR DEC(__TI_COMPILER_VERSION__/1000 % 1000)
# define COMPILER_VERSION_PATCH DEC(__TI_COMPILER_VERSION__ % 1000)
#elif defined(__CLANG_FUJITSU)
# define COMPILER_ID "FujitsuClang"
# define COMPILER_VERSION_MAJOR DEC(__FCC_major__)
# define COMPILER_VERSION_MINOR DEC(__FCC_minor__)
# define COMPILER_VERSION_PATCH DEC(__FCC_patchlevel__)
# define COMPILER_VERSION_INTERNAL_STR __clang_version__
#elif defined(__FUJITSU)
# define COMPILER_ID "Fujitsu"
# if defined(__FCC_version__)
# define COMPILER_VERSION __FCC_version__
# elif defined(__FCC_major__)
# define COMPILER_VERSION_MAJOR DEC(__FCC_major__)
# define COMPILER_VERSION_MINOR DEC(__FCC_minor__)
# define COMPILER_VERSION_PATCH DEC(__FCC_patchlevel__)
# endif
# if defined(__fcc_version)
# define COMPILER_VERSION_INTERNAL DEC(__fcc_version)
# elif defined(__FCC_VERSION)
# define COMPILER_VERSION_INTERNAL DEC(__FCC_VERSION)
# endif
#elif defined(__ghs__)
# define COMPILER_ID "GHS"
/* __GHS_VERSION_NUMBER = VVVVRP */
# ifdef __GHS_VERSION_NUMBER
# define COMPILER_VERSION_MAJOR DEC(__GHS_VERSION_NUMBER / 100)
# define COMPILER_VERSION_MINOR DEC(__GHS_VERSION_NUMBER / 10 % 10)
# define COMPILER_VERSION_PATCH DEC(__GHS_VERSION_NUMBER % 10)
# endif
#elif defined(__TINYC__)
# define COMPILER_ID "TinyCC"
#elif defined(__BCC__)
# define COMPILER_ID "Bruce"
#elif defined(__SCO_VERSION__)
# define COMPILER_ID "SCO"
#elif defined(__ARMCC_VERSION) && !defined(__clang__)
# define COMPILER_ID "ARMCC"
#if __ARMCC_VERSION >= 1000000
/* __ARMCC_VERSION = VRRPPPP */
# define COMPILER_VERSION_MAJOR DEC(__ARMCC_VERSION/1000000)
# define COMPILER_VERSION_MINOR DEC(__ARMCC_VERSION/10000 % 100)
# define COMPILER_VERSION_PATCH DEC(__ARMCC_VERSION % 10000)
#else
/* __ARMCC_VERSION = VRPPPP */
# define COMPILER_VERSION_MAJOR DEC(__ARMCC_VERSION/100000)
# define COMPILER_VERSION_MINOR DEC(__ARMCC_VERSION/10000 % 10)
# define COMPILER_VERSION_PATCH DEC(__ARMCC_VERSION % 10000)
#endif
#elif defined(__clang__) && defined(__apple_build_version__)
# define COMPILER_ID "AppleClang"
# if defined(_MSC_VER)
# define SIMULATE_ID "MSVC"
# endif
# define COMPILER_VERSION_MAJOR DEC(__clang_major__)
# define COMPILER_VERSION_MINOR DEC(__clang_minor__)
# define COMPILER_VERSION_PATCH DEC(__clang_patchlevel__)
# if defined(_MSC_VER)
/* _MSC_VER = VVRR */
# define SIMULATE_VERSION_MAJOR DEC(_MSC_VER / 100)
# define SIMULATE_VERSION_MINOR DEC(_MSC_VER % 100)
# endif
# define COMPILER_VERSION_TWEAK DEC(__apple_build_version__)
#elif defined(__clang__) && defined(__ARMCOMPILER_VERSION)
# define COMPILER_ID "ARMClang"
# define COMPILER_VERSION_MAJOR DEC(__ARMCOMPILER_VERSION/1000000)
# define COMPILER_VERSION_MINOR DEC(__ARMCOMPILER_VERSION/10000 % 100)
# define COMPILER_VERSION_PATCH DEC(__ARMCOMPILER_VERSION % 10000)
# define COMPILER_VERSION_INTERNAL DEC(__ARMCOMPILER_VERSION)
#elif defined(__clang__) && __has_include(<hip/hip_version.h>)
# define COMPILER_ID "ROCMClang"
# if defined(_MSC_VER)
# define SIMULATE_ID "MSVC"
# elif defined(__clang__)
# define SIMULATE_ID "Clang"
# elif defined(__GNUC__)
# define SIMULATE_ID "GNU"
# endif
# if defined(__clang__) && __has_include(<hip/hip_version.h>)
# include <hip/hip_version.h>
# define COMPILER_VERSION_MAJOR DEC(HIP_VERSION_MAJOR)
# define COMPILER_VERSION_MINOR DEC(HIP_VERSION_MINOR)
# define COMPILER_VERSION_PATCH DEC(HIP_VERSION_PATCH)
# endif
#elif defined(__clang__)
# define COMPILER_ID "Clang"
# if defined(_MSC_VER)
# define SIMULATE_ID "MSVC"
# endif
# define COMPILER_VERSION_MAJOR DEC(__clang_major__)
# define COMPILER_VERSION_MINOR DEC(__clang_minor__)
# define COMPILER_VERSION_PATCH DEC(__clang_patchlevel__)
# if defined(_MSC_VER)
/* _MSC_VER = VVRR */
# define SIMULATE_VERSION_MAJOR DEC(_MSC_VER / 100)
# define SIMULATE_VERSION_MINOR DEC(_MSC_VER % 100)
# endif
#elif defined(__GNUC__)
# define COMPILER_ID "GNU"
# define COMPILER_VERSION_MAJOR DEC(__GNUC__)
# if defined(__GNUC_MINOR__)
# define COMPILER_VERSION_MINOR DEC(__GNUC_MINOR__)
# endif
# if defined(__GNUC_PATCHLEVEL__)
# define COMPILER_VERSION_PATCH DEC(__GNUC_PATCHLEVEL__)
# endif
#elif defined(_MSC_VER)
# define COMPILER_ID "MSVC"
/* _MSC_VER = VVRR */
# define COMPILER_VERSION_MAJOR DEC(_MSC_VER / 100)
# define COMPILER_VERSION_MINOR DEC(_MSC_VER % 100)
# if defined(_MSC_FULL_VER)
# if _MSC_VER >= 1400
/* _MSC_FULL_VER = VVRRPPPPP */
# define COMPILER_VERSION_PATCH DEC(_MSC_FULL_VER % 100000)
# else
/* _MSC_FULL_VER = VVRRPPPP */
# define COMPILER_VERSION_PATCH DEC(_MSC_FULL_VER % 10000)
# endif
# endif
# if defined(_MSC_BUILD)
# define COMPILER_VERSION_TWEAK DEC(_MSC_BUILD)
# endif
#elif defined(__VISUALDSPVERSION__) || defined(__ADSPBLACKFIN__) || defined(__ADSPTS__) || defined(__ADSP21000__)
# define COMPILER_ID "ADSP"
#if defined(__VISUALDSPVERSION__)
/* __VISUALDSPVERSION__ = 0xVVRRPP00 */
# define COMPILER_VERSION_MAJOR HEX(__VISUALDSPVERSION__>>24)
# define COMPILER_VERSION_MINOR HEX(__VISUALDSPVERSION__>>16 & 0xFF)
# define COMPILER_VERSION_PATCH HEX(__VISUALDSPVERSION__>>8 & 0xFF)
#endif
#elif defined(__IAR_SYSTEMS_ICC__) || defined(__IAR_SYSTEMS_ICC)
# define COMPILER_ID "IAR"
# if defined(__VER__) && defined(__ICCARM__)
# define COMPILER_VERSION_MAJOR DEC((__VER__) / 1000000)
# define COMPILER_VERSION_MINOR DEC(((__VER__) / 1000) % 1000)
# define COMPILER_VERSION_PATCH DEC((__VER__) % 1000)
# define COMPILER_VERSION_INTERNAL DEC(__IAR_SYSTEMS_ICC__)
# elif defined(__VER__) && (defined(__ICCAVR__) || defined(__ICCRX__) || defined(__ICCRH850__) || defined(__ICCRL78__) || defined(__ICC430__) || defined(__ICCRISCV__) || defined(__ICCV850__) || defined(__ICC8051__) || defined(__ICCSTM8__))
# define COMPILER_VERSION_MAJOR DEC((__VER__) / 100)
# define COMPILER_VERSION_MINOR DEC((__VER__) - (((__VER__) / 100)*100))
# define COMPILER_VERSION_PATCH DEC(__SUBVERSION__)
# define COMPILER_VERSION_INTERNAL DEC(__IAR_SYSTEMS_ICC__)
# endif
#elif defined(__SDCC_VERSION_MAJOR) || defined(SDCC)
# define COMPILER_ID "SDCC"
# if defined(__SDCC_VERSION_MAJOR)
# define COMPILER_VERSION_MAJOR DEC(__SDCC_VERSION_MAJOR)
# define COMPILER_VERSION_MINOR DEC(__SDCC_VERSION_MINOR)
# define COMPILER_VERSION_PATCH DEC(__SDCC_VERSION_PATCH)
# else
/* SDCC = VRP */
# define COMPILER_VERSION_MAJOR DEC(SDCC/100)
# define COMPILER_VERSION_MINOR DEC(SDCC/10 % 10)
# define COMPILER_VERSION_PATCH DEC(SDCC % 10)
# endif
/* These compilers are either not known or too old to define an
identification macro. Try to identify the platform and guess that
it is the native compiler. */
#elif defined(__hpux) || defined(__hpua)
# define COMPILER_ID "HP"
#else /* unknown compiler */
# define COMPILER_ID ""
#endif
/* Construct the string literal in pieces to prevent the source from
getting matched. Store it in a pointer rather than an array
because some compilers will just produce instructions to fill the
array rather than assigning a pointer to a static array. */
char const* info_compiler = "INFO" ":" "compiler[" COMPILER_ID "]";
#ifdef SIMULATE_ID
char const* info_simulate = "INFO" ":" "simulate[" SIMULATE_ID "]";
#endif
#ifdef __QNXNTO__
char const* qnxnto = "INFO" ":" "qnxnto[]";
#endif
#if defined(__CRAYXT_COMPUTE_LINUX_TARGET)
char const *info_cray = "INFO" ":" "compiler_wrapper[CrayPrgEnv]";
#endif
#define STRINGIFY_HELPER(X) #X
#define STRINGIFY(X) STRINGIFY_HELPER(X)
/* Identify known platforms by name. */
#if defined(__linux) || defined(__linux__) || defined(linux)
# define PLATFORM_ID "Linux"
#elif defined(__MSYS__)
# define PLATFORM_ID "MSYS"
#elif defined(__CYGWIN__)
# define PLATFORM_ID "Cygwin"
#elif defined(__MINGW32__)
# define PLATFORM_ID "MinGW"
#elif defined(__APPLE__)
# define PLATFORM_ID "Darwin"
#elif defined(_WIN32) || defined(__WIN32__) || defined(WIN32)
# define PLATFORM_ID "Windows"
#elif defined(__FreeBSD__) || defined(__FreeBSD)
# define PLATFORM_ID "FreeBSD"
#elif defined(__NetBSD__) || defined(__NetBSD)
# define PLATFORM_ID "NetBSD"
#elif defined(__OpenBSD__) || defined(__OPENBSD)
# define PLATFORM_ID "OpenBSD"
#elif defined(__sun) || defined(sun)
# define PLATFORM_ID "SunOS"
#elif defined(_AIX) || defined(__AIX) || defined(__AIX__) || defined(__aix) || defined(__aix__)
# define PLATFORM_ID "AIX"
#elif defined(__hpux) || defined(__hpux__)
# define PLATFORM_ID "HP-UX"
#elif defined(__HAIKU__)
# define PLATFORM_ID "Haiku"
#elif defined(__BeOS) || defined(__BEOS__) || defined(_BEOS)
# define PLATFORM_ID "BeOS"
#elif defined(__QNX__) || defined(__QNXNTO__)
# define PLATFORM_ID "QNX"
#elif defined(__tru64) || defined(_tru64) || defined(__TRU64__)
# define PLATFORM_ID "Tru64"
#elif defined(__riscos) || defined(__riscos__)
# define PLATFORM_ID "RISCos"
#elif defined(__sinix) || defined(__sinix__) || defined(__SINIX__)
# define PLATFORM_ID "SINIX"
#elif defined(__UNIX_SV__)
# define PLATFORM_ID "UNIX_SV"
#elif defined(__bsdos__)
# define PLATFORM_ID "BSDOS"
#elif defined(_MPRAS) || defined(MPRAS)
# define PLATFORM_ID "MP-RAS"
#elif defined(__osf) || defined(__osf__)
# define PLATFORM_ID "OSF1"
#elif defined(_SCO_SV) || defined(SCO_SV) || defined(sco_sv)
# define PLATFORM_ID "SCO_SV"
#elif defined(__ultrix) || defined(__ultrix__) || defined(_ULTRIX)
# define PLATFORM_ID "ULTRIX"
#elif defined(__XENIX__) || defined(_XENIX) || defined(XENIX)
# define PLATFORM_ID "Xenix"
#elif defined(__WATCOMC__)
# if defined(__LINUX__)
# define PLATFORM_ID "Linux"
# elif defined(__DOS__)
# define PLATFORM_ID "DOS"
# elif defined(__OS2__)
# define PLATFORM_ID "OS2"
# elif defined(__WINDOWS__)
# define PLATFORM_ID "Windows3x"
# elif defined(__VXWORKS__)
# define PLATFORM_ID "VxWorks"
# else /* unknown platform */
# define PLATFORM_ID
# endif
#elif defined(__INTEGRITY)
# if defined(INT_178B)
# define PLATFORM_ID "Integrity178"
# else /* regular Integrity */
# define PLATFORM_ID "Integrity"
# endif
#else /* unknown platform */
# define PLATFORM_ID
#endif
/* For windows compilers MSVC and Intel we can determine
the architecture of the compiler being used. This is because
the compilers do not have flags that can change the architecture,
but rather depend on which compiler is being used
*/
#if defined(_WIN32) && defined(_MSC_VER)
# if defined(_M_IA64)
# define ARCHITECTURE_ID "IA64"
# elif defined(_M_ARM64EC)
# define ARCHITECTURE_ID "ARM64EC"
# elif defined(_M_X64) || defined(_M_AMD64)
# define ARCHITECTURE_ID "x64"
# elif defined(_M_IX86)
# define ARCHITECTURE_ID "X86"
# elif defined(_M_ARM64)
# define ARCHITECTURE_ID "ARM64"
# elif defined(_M_ARM)
# if _M_ARM == 4
# define ARCHITECTURE_ID "ARMV4I"
# elif _M_ARM == 5
# define ARCHITECTURE_ID "ARMV5I"
# else
# define ARCHITECTURE_ID "ARMV" STRINGIFY(_M_ARM)
# endif
# elif defined(_M_MIPS)
# define ARCHITECTURE_ID "MIPS"
# elif defined(_M_SH)
# define ARCHITECTURE_ID "SHx"
# else /* unknown architecture */
# define ARCHITECTURE_ID ""
# endif
#elif defined(__WATCOMC__)
# if defined(_M_I86)
# define ARCHITECTURE_ID "I86"
# elif defined(_M_IX86)
# define ARCHITECTURE_ID "X86"
# else /* unknown architecture */
# define ARCHITECTURE_ID ""
# endif
#elif defined(__IAR_SYSTEMS_ICC__) || defined(__IAR_SYSTEMS_ICC)
# if defined(__ICCARM__)
# define ARCHITECTURE_ID "ARM"
# elif defined(__ICCRX__)
# define ARCHITECTURE_ID "RX"
# elif defined(__ICCRH850__)
# define ARCHITECTURE_ID "RH850"
# elif defined(__ICCRL78__)
# define ARCHITECTURE_ID "RL78"
# elif defined(__ICCRISCV__)
# define ARCHITECTURE_ID "RISCV"
# elif defined(__ICCAVR__)
# define ARCHITECTURE_ID "AVR"
# elif defined(__ICC430__)
# define ARCHITECTURE_ID "MSP430"
# elif defined(__ICCV850__)
# define ARCHITECTURE_ID "V850"
# elif defined(__ICC8051__)
# define ARCHITECTURE_ID "8051"
# elif defined(__ICCSTM8__)
# define ARCHITECTURE_ID "STM8"
# else /* unknown architecture */
# define ARCHITECTURE_ID ""
# endif
#elif defined(__ghs__)
# if defined(__PPC64__)
# define ARCHITECTURE_ID "PPC64"
# elif defined(__ppc__)
# define ARCHITECTURE_ID "PPC"
# elif defined(__ARM__)
# define ARCHITECTURE_ID "ARM"
# elif defined(__x86_64__)
# define ARCHITECTURE_ID "x64"
# elif defined(__i386__)
# define ARCHITECTURE_ID "X86"
# else /* unknown architecture */
# define ARCHITECTURE_ID ""
# endif
#elif defined(__TI_COMPILER_VERSION__)
# if defined(__TI_ARM__)
# define ARCHITECTURE_ID "ARM"
# elif defined(__MSP430__)
# define ARCHITECTURE_ID "MSP430"
# elif defined(__TMS320C28XX__)
# define ARCHITECTURE_ID "TMS320C28x"
# elif defined(__TMS320C6X__) || defined(_TMS320C6X)
# define ARCHITECTURE_ID "TMS320C6x"
# else /* unknown architecture */
# define ARCHITECTURE_ID ""
# endif
#else
# define ARCHITECTURE_ID
#endif
/* Convert integer to decimal digit literals. */
#define DEC(n) \
('0' + (((n) / 10000000)%10)), \
('0' + (((n) / 1000000)%10)), \
('0' + (((n) / 100000)%10)), \
('0' + (((n) / 10000)%10)), \
('0' + (((n) / 1000)%10)), \
('0' + (((n) / 100)%10)), \
('0' + (((n) / 10)%10)), \
('0' + ((n) % 10))
/* Convert integer to hex digit literals. */
#define HEX(n) \
('0' + ((n)>>28 & 0xF)), \
('0' + ((n)>>24 & 0xF)), \
('0' + ((n)>>20 & 0xF)), \
('0' + ((n)>>16 & 0xF)), \
('0' + ((n)>>12 & 0xF)), \
('0' + ((n)>>8 & 0xF)), \
('0' + ((n)>>4 & 0xF)), \
('0' + ((n) & 0xF))
/* Construct a string literal encoding the version number. */
#ifdef COMPILER_VERSION
char const* info_version = "INFO" ":" "compiler_version[" COMPILER_VERSION "]";
/* Construct a string literal encoding the version number components. */
#elif defined(COMPILER_VERSION_MAJOR)
char const info_version[] = {
'I', 'N', 'F', 'O', ':',
'c','o','m','p','i','l','e','r','_','v','e','r','s','i','o','n','[',
COMPILER_VERSION_MAJOR,
# ifdef COMPILER_VERSION_MINOR
'.', COMPILER_VERSION_MINOR,
# ifdef COMPILER_VERSION_PATCH
'.', COMPILER_VERSION_PATCH,
# ifdef COMPILER_VERSION_TWEAK
'.', COMPILER_VERSION_TWEAK,
# endif
# endif
# endif
']','\0'};
#endif
/* Construct a string literal encoding the internal version number. */
#ifdef COMPILER_VERSION_INTERNAL
char const info_version_internal[] = {
'I', 'N', 'F', 'O', ':',
'c','o','m','p','i','l','e','r','_','v','e','r','s','i','o','n','_',
'i','n','t','e','r','n','a','l','[',
COMPILER_VERSION_INTERNAL,']','\0'};
#elif defined(COMPILER_VERSION_INTERNAL_STR)
char const* info_version_internal = "INFO" ":" "compiler_version_internal[" COMPILER_VERSION_INTERNAL_STR "]";
#endif
/* Construct a string literal encoding the version number components. */
#ifdef SIMULATE_VERSION_MAJOR
char const info_simulate_version[] = {
'I', 'N', 'F', 'O', ':',
's','i','m','u','l','a','t','e','_','v','e','r','s','i','o','n','[',
SIMULATE_VERSION_MAJOR,
# ifdef SIMULATE_VERSION_MINOR
'.', SIMULATE_VERSION_MINOR,
# ifdef SIMULATE_VERSION_PATCH
'.', SIMULATE_VERSION_PATCH,
# ifdef SIMULATE_VERSION_TWEAK
'.', SIMULATE_VERSION_TWEAK,
# endif
# endif
# endif
']','\0'};
#endif
/* Construct the string literal in pieces to prevent the source from
getting matched. Store it in a pointer rather than an array
because some compilers will just produce instructions to fill the
array rather than assigning a pointer to a static array. */
char const* info_platform = "INFO" ":" "platform[" PLATFORM_ID "]";
char const* info_arch = "INFO" ":" "arch[" ARCHITECTURE_ID "]";
#if !defined(__STDC__) && !defined(__clang__)
# if defined(_MSC_VER) || defined(__ibmxl__) || defined(__IBMC__)
# define C_DIALECT "90"
# else
# define C_DIALECT
# endif
#elif __STDC_VERSION__ > 201710L
# define C_DIALECT "23"
#elif __STDC_VERSION__ >= 201710L
# define C_DIALECT "17"
#elif __STDC_VERSION__ >= 201000L
# define C_DIALECT "11"
#elif __STDC_VERSION__ >= 199901L
# define C_DIALECT "99"
#else
# define C_DIALECT "90"
#endif
const char* info_language_dialect_default =
"INFO" ":" "dialect_default[" C_DIALECT "]";
/*--------------------------------------------------------------------------*/
#ifdef ID_VOID_MAIN
void main() {}
#else
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#include <stdio.h>
#include <stdlib.h>
/* Funktionsdeklarationen */
int gibIntWert(char text[], int min, int max);
int istSchaltjahr(int jahr);
int tageProMonat(int jahr, int monat);
/* Mainfunktion */
int main (int argc, char *argv[]) {
int monat, jahr;
// Monat einlesen und Bereich ueberpruefen
monat = gibIntWert("Monat", 1, 12);
jahr = gibIntWert("Jahr", 1600, 9999);
// Ausgabe zum Test
printf("Monat: %d, Jahr: %d \n", monat, jahr);
// Ausgabe zum Test (hier mit dem ternaeren Operator "?:")
printf("%d ist %s Schaltjahr\n", jahr, istSchaltjahr(jahr) ? "ein" : "kein");
// Ausgabe
printf("Der Monat %02d-%d hat %d Tage.\n", monat, jahr, tageProMonat(jahr, monat));
return 0;
}
/* Funktionsdefinitionen */
int gibIntWert(char text[], int min, int max) {
int wert;
(void) printf("Enter %s :", text);
scanf("%d", &wert);
if(wert >= min & wert <= max){
return wert;
}
else {
return 0;
}
}
int istSchaltjahr(int jahr){
int ergebnis;
if(jahr % 400 == 0){
ergebnis = 1;
}
else if (jahr % 100 == 0){
ergebnis = 0;
}
else if(jahr % 4 == 0){
ergebnis = 1;
}
else {
ergebnis = 0;
}
return ergebnis;
}
int tageProMonat(int jahr, int monat){
int ergebnis = 0;
switch (monat) {
case 1:
ergebnis = 31;
break;
case 2:
if(istSchaltjahr(jahr)){
ergebnis = 29;
}
else {
ergebnis = 28;
}
break;
case 3:
ergebnis = 31;
break;
case 4:
ergebnis = 30;
break;
case 5:
ergebnis = 31;
break;
case 6:
ergebnis = 30;
break;
case 7:
ergebnis = 31;
break;
case 8:
ergebnis = 31;
break;
case 9:
ergebnis = 30;
break;
case 10:
ergebnis = 31;
break;
case 11:
ergebnis = 30;
break;
case 12:
ergebnis = 31;
break;
}
return ergebnis;
}

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/* ----------------------------------------------------------------------------
* -- _____ ______ _____ -
* -- |_ _| | ____|/ ____| -
* -- | | _ __ | |__ | (___ Institute of Embedded Systems -
* -- | | | '_ \| __| \___ \ Zuercher Hochschule Winterthur -
* -- _| |_| | | | |____ ____) | (University of Applied Sciences) -
* -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland -
* ----------------------------------------------------------------------------
*/
/**
* @file
* @brief Lab P02 weekday
*/
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
// *** TASK1: typedef enum types for month_t (Jan=1,...Dec} ***
// BEGIN-STUDENTS-TO-ADD-CODE
typedef enum {Jan=1, Feb, Mar, Apr, May, June, July, Aug, Sept, Oct, Nov, Dec} month_t;
// END-STUDENTS-TO-ADD-CODE
// *** TASK1: typedef struct for date_t ***
// BEGIN-STUDENTS-TO-ADD-CODE
typedef struct {int year, month, day;} date_t;
// END-STUDENTS-TO-ADD-CODE
// *** TASK2: typedef enum weekday_t (Sun=0, Mon, ...Sat) ***
// BEGIN-STUDENTS-TO-ADD-CODE
typedef enum {Sun=0, Mon, Tue, Wed, Thu, Fri, Sat} weekday_t;
// END-STUDENTS-TO-ADD-CODE
/**
* @brief TASK1: Checks if the given date is a leap year.
* @returns 0 = is not leap year, 1 = is leap year
*/
// BEGIN-STUDENTS-TO-ADD-CODE
int is_leap_year(date_t date){
int ergebnis;
if(date.year % 400 == 0){
ergebnis = 1;
}
else if (date.year % 100 == 0){
ergebnis = 0;
}
else if(date.year % 4 == 0){
ergebnis = 1;
}
else {
ergebnis = 0;
}
return ergebnis;
}
// END-STUDENTS-TO-ADD-CODE
/**
* @brief TASK1: Calculates the length of the month given by the data parameter
* @returns 28, 29, 30, 31 if a valid month, else 0
*/
// BEGIN-STUDENTS-TO-ADD-CODE
int get_month_length(date_t date){
int ergebnis = 0;
switch (date.month) {
case Jan:
ergebnis = 31;
break;
case Feb:
if(is_leap_year(date)){
ergebnis = 29;
}
else {
ergebnis = 28;
}
break;
case Mar:
ergebnis = 31;
break;
case Apr:
ergebnis = 30;
break;
case May:
ergebnis = 31;
break;
case June:
ergebnis = 30;
break;
case July:
ergebnis = 31;
break;
case Aug:
ergebnis = 31;
break;
case Sept:
ergebnis = 30;
break;
case Oct:
ergebnis = 31;
break;
case Nov:
ergebnis = 30;
break;
case Dec:
ergebnis = 31;
break;
}
return ergebnis;
}
// END-STUDENTS-TO-ADD-CODE
/**
* @brief TASK1: Checks if the given date is in the gregorian date range
* @returns 0 = no, 1 = yes
*/
// BEGIN-STUDENTS-TO-ADD-CODE
int is_gregorian_date(date_t date) {
int ergebnis = 1;
if((date.year == 1582 && date.month <= Oct && date.day < 15) || date.year < 1582 || (date.year > 9999)){
return 0;
}
else {
return 1;
}
}
// END-STUDENTS-TO-ADD-CODE
/**
* @brief TASK1: Checks if the given date is a valid date.
* @returns 0 = is not valid date, 1 = is valid date
*/
// BEGIN-STUDENTS-TO-ADD-CODE
int is_valid_date(date_t date) {
int ergebnis = 1;
int ml = get_month_length(date);
if((int)ml < (int)date.day ){//|| date.month < 1 || date.month > 12 || is_gregorian_date == 0){
return 0;
}
else {
printf("Länge Monat: %d\n", get_month_length(date));
printf("Länge Monat: %d\n", ml);
printf("Tag: %d\n", date.day);
printf("Monat: %d\n", date.month);
printf("Jahr: %d\n", date.year);
return 1;
}
}
// END-STUDENTS-TO-ADD-CODE
/**
* @brief TASK2: calculated from a valid date the weekday
* @returns returns a weekday in the range Sun...Sat
*/
// BEGIN-STUDENTS-TO-ADD-CODE
weekday_t calculate_weekday(date_t date) {
int m = 1 + (date.month + 9) % 12;
int a;
if(date.month < Mar){
a = date.year - 1;
}
else {
a = date.year;
}
int y = a % 100;
int c = a / 100;
weekday_t weekday = ((date.day + (13 * m - 1) / 5 + y + y / 4 + c / 4 - 2 * c) % 7 + 7) % 7;
return weekday;
}
// END-STUDENTS-TO-ADD-CODE
/**
* @brief TASK2: print weekday as 3-letter abreviated English day name
*/
// BEGIN-STUDENTS-TO-ADD-CODE
void print_weekday(weekday_t day) {
int ergebnis = 0;
switch (day) {
case Sun:
printf("Sun");
break;
case Mon:
printf("Mon");
break;
case Tue:
printf("Tue");
break;
case Wed:
printf("Wed");
break;
case Thu:
printf("Thu");
break;
case Fri:
printf("Fri");
break;
case Sat:
printf("Sat");
break;
default:
assert(!"day is out-of-range");
break;
}
}
// END-STUDENTS-TO-ADD-CODE
/**
* @brief main function
* @param argc [in] number of entries in argv
* @param argv [in] program name plus command line arguments
* @returns returns success if valid date is given, failure otherwise
*/
int main(int argc, const char *argv[])
{
// TASK1: parse the mandatory argument into a date_t variable and check if the date is valid
// BEGIN-STUDENTS-TO-ADD-CODE
date_t date;
int res = sscanf(argv[1]
, "%d-%d-%d"
, &date.year, &date.month, &date.day
);
if (res != 3 || is_valid_date(date) == 0) {
printf("Fehler\n");
return EXIT_FAILURE;
}
// END-STUDENTS-TO-ADD-CODE
// TASK2: calculate the weekday and print it in this format: "%04d-%02d-%02d is a %s\n"
// BEGIN-STUDENTS-TO-ADD-CODE
printf("%04d-%02d-%02d is a ", date.year, date.month, date.day);
print_weekday(calculate_weekday(date));
printf("\n");
// END-STUDENTS-TO-ADD-CODE
return EXIT_SUCCESS;
}

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# 02: Funktionen, Datentyp "enum"
___
![](./random_number.png)
(Copyright Bild: xkcd.com)
___
## 1. Übersicht
In diesem Praktikum sind zwei Themen im Fokus: Funktionen und der Datentyp enum.
Funktionen sind der wesentlichste Bestandteil der C Programmierung, welcher eine strukturierte Programmierung ermöglicht:
* Eine Funktion ist ein Teil eines C Codes, der eine spezielle Aufgabe ausführt. Sie kann aus dem Hauptprogramm, oder aus anderen Funktionen, aufgerufen werden.
* Jede Funktion besitzt einen eindeutigen Namen, eine eindeutige Signatur (Typen und Reihenfolge der Parameter) und einen Rückgabewert (int falls nichts angegeben wird).
* Eine Funktion kann Werte aus dem aufrufenden Kontext übernehmen und bei Bedarf einen Wert an den aufrufenden Kontext zurückliefern.
Beispiel einer Additions-Funktion:
```
#include <stdio.h>
/* Funktionsdeklaration */
int add(int a, int b);
int main(void) {
int aa = 1, bb = 2, cc;
printf("%d + %d = %d", aa, bb, add(aa, bb););
return 0;
}
/* Funktionsdefinition */
int add(int a, int b) {
return a + b;
}
```
Der Daten typt enum wird verwendet um die Lesbarkeit von Programmen zu erhöhen:
Beispiel eines enum:
```
enum Ampeln = {rot =1, gelb, gruen};
int main(void) {
Ampeln ampel1;
if (ampel1 == rot) {...}
return 0;
}
```
___
## 2. Lernziele
In diesem Praktikum lernen Sie Funktionen zu definieren und aufzurufen, sowie enum anzuwenden.
* Sie können ein Programm schreiben, welches aus mehreren Funktionen besteht.
* Sie können Funktionen deklarieren, definieren und aufrufen.
* Sie können enum Typen definieren und deren Werte bestimmen und abfragen.
___
## 3. Aufgaben
![](./kalender-108_v-ARDFotogalerie.jpg)
(Copyright Bild: www.planet-wissen.de)
### 3.1 Aufgabe 1 Tage pro Monat
In der ersten Aufgabe berechnen Sie die Anzahl Tage pro Monat einer beliebigen Kombination Monat / Jahr.
Erweitern Sie dazu das Programm um folgende Aspekte:
* Bereichsprüfung von Jahr und Monat
* Funktion istSchaltjahr, welche berechnet, ob das Jahr eine Schaljahr ist
* Funktion tageProMonat, welche die Anzahl Tage des gegebenen Monats und Jahres berechnet.
Vorgaben:
* Die Funktion istSchaltjahr nimmt einen Integer (jahr) entgegen und gibt 1 im Falle eines Schaltjahres und 0 im andreren Fall zurück
* Die Funktion tageProMonat nimmt zwei Integer (monat und jahr) entgegen und gibt die Anzahl Tage als Integer zurück
* Die Jahreszahl, welche den Funktionen übergeben wird, muss überprüft werden und grösser gleich 1599 und kleiner als 10000 sein
* Der übergebene Monat muss grösser als 0 und kleiner als 13 sein.
Die Regeln für die Schaltjahrberechnung:
* Schaltjahre sind alle Jahre, die durch 4 teilbar sind.
* Eine Ausnahme bilden die Jahrhunderte (1600, 1700…). Diese sind keine Schaltjahre.
* zu den 100er gibt es ebenfalls Ausnahmen: Diese sind immer Schaltjahre, wenn sie durch 400 teilbar sind
... also zum Beispiel 1600 ist eines, nicht jedoch 1700. Weiterführende Details finden Sie unter https://de.wikipedia.org/wiki/Gregorianischer_Kalender
Gegeben ist die main Funktion des Programms. Ergänzen Sie die enum Definition und die fehlenden Funktionen:
* gibIntWert: Die Funktion soll einen Int Wert zurückgeben. Der Bereich, wie auch Fehleingaben sollen berücksichtigt werden. (atoi und fgets sind hier hilfreich)
* istSchaltjahr: Die Funktion gibt 1 im Falle eines Schaltjahrs und o im anderen Falle zurück.
* tageProMonat: Die Funktion gibt den die Tage des Monats für das definierte Jahr zurück. Verwenden Sie die Switch-Anweisung , sowie den enum Datentypen
```
int main (int argc, char *argv[]) {
int monat, jahr;
// Monat einlesen und Bereich ueberpruefen
monat = gibIntWert("Monat", 1, 12);
jahr = gibIntWert("Jahr", 1600, 9999);
// Ausgabe zum Test
printf("Monat: %d, Jahr: %d \n", monat, jahr);
// Ausgabe zum Test (hier mit dem ternaeren Operator "?:")
printf("%d ist %s Schaltjahr\n", jahr, istSchaltjahr(jahr) ? "ein" : "kein");
// Ausgabe
printf("Der Monat %02d-%d hat %d Tage.\n", monat, jahr, tageProMonat(jahr, monat));
return 0;
}
```
Tipp: Angenommen Sie verwenden den enum month_t { JAN=1, FEB, MAR, APR, MAI, JUN, JUL, AUG, SEP, OKT, NOV, DEZ };
Dann können Sie im Programm direkt die Konstanten verwenden:
```
if (m == 2) ... // schlecht lesbar
if (monat == 2) ... // besserer Variablenname
if (monat == FEB) ... // am besten lesbar
```
Als Abnahme müssen die Tests unverändert ohne Fehler ausgeführt werden (`make test`)
___
### 3.2 Aufgabe 2 Bestimmen des Wochentags
Erweitern Sie das vorgegebene zweite Programm Gerüst an den bezeichneten Stellen so, dass das Programm von der Kommando Zeile ein Argument entgegennimmt, es auf Gültigkeit überprüft und schliesslich den Wochentag für das gegebene Datum berechnet und ausgibt.
Prüfen Sie die Umsetzung beider Teilaufgaben mittels make test.
#### 3.2.1 Teilaufgabe Argumente Parsen und auf Korrektheit prüfen
Das Argument stellt ein gültiges Datum unseres Gregorianischen Kalenders dar (d.h. ein Datum ab Donnerstag, den 15. Oktober 1582, mit der Gregorianischen Schaltjahr Regel).
Wenn kein Argument gegeben ist oder wenn das eingegebene Datum nicht gültig ist, soll das Programm einem Hilfetext auf stderr ausgeben und mit EXIT_FAILURE Exit Code terminieren. Wenn ein gültiges Datum erkannt wurde terminiert das Programm mit Exit Code EXIT_SUCCESS.
##### 3.2.1.1 Argument Format
Das Format des Kommando Zeilen Arguments soll yyyy-mm-dd sein, wobei yyyy für das vier-stellige Jahr, mm für einen 1-2-stelligen Monat (1…12) und dd für einen Tag des Monats, beginnend mit 01. Z.B. 2020-02-29.
##### 3.2.1.2 Korrektes Datum
Das Datum muss alle folgenden Bedingungen erfüllen damit es als korrekt erkannt wird:
* Obergrenze für ein «sinnvolles» Datum ist das Jahr 9999
* es muss Gregorianisch sein, d.h. ab 15. Oktober 1582 (inklusive)
* es darf nur Monate von 1 für Januar bis 12 für Dezember beinhalten
* der Tag muss grösser oder gleich 1 sein
* der Tag darf nicht grösser als 31 sein für Monate mit einer Länge von 31 Tagen
* der Tag darf nicht grösser als 30 sein für Monate mit einer Länge von 30 Tagen
* der Tag darf für den Februar nicht grösser sein als 29 für ein Schaltjahr
* der Tag darf für den Februar nicht grösser sein als 28 für ein Nicht-Schaltjahr
##### 3.2.1.3 Vorgaben an die Umsetzung
1. Definieren Sie einen enum Typen mit (typedef) Namen month_t dessen Werte die Englischen 3-Zeichen Abkürzungen der Monate sind, nämlich Jan, Feb, … Dec und stellen Sie sicher dass die Abkürzungen für die uns geläufigen Monatsnummer stehen.
2. Definierend Sie einen struct Typen mit (typedef) Namen date_t und den int Elementen year, month, day. Lesen Sie das Argument (falls vorhanden) via sscanf und dem Formatstring "%d-%d-%d" in die drei Elemente einer Date Variable. Siehe dazu die Hinweise im Anhang.
3. Für die Berechnung der Monatslänge implementieren Sie die Hilfsfunktion is_leap_year(date_t date) (nach obigen Vorgaben). Der Return Wert 0 bedeutet «Kein Schaltjahr», 1 bedeutet «Schaltjahr».
4. Implementieren Sie die Funktion `int get_month_length(date_t date)`. Diese soll für den Monat des Datums die Monatslänge (was dem letzten Tag des Monats entspricht) ausgeben geben Sie 0 für ungültige Monatswerte zurück.
5. Schliesslich implementieren Sie die Funktion int is_gregorian_date(date_t date) welche prüft, ob ein gegebenes Datum im Bereich 15. Oktober 1582 und dem Jahr 9999 ist (0 = nein, 1 = ja).
6. Implementieren Sie eine Funktion int is_valid_date(date_t date), welche obige Bedingungen für ein gültiges Datum umsetzt. Der Return Wert 0 bedeutet «Kein gültiges Datum», 1 bedeutet «Gültiges Datum». Benutzen Sie für die Prüfung des Datums die `month_t` Werte wo immer möglich und sinnvoll. Verwenden Sie die oben implementierten Hilfsfunktionen.
##### 3.2.1.4 Hinweise
Beachten Sie die Kommentare im Code für die geforderten Implementierungs-Details.
#### 3.2.2 Teilaufgabe Wochentag Berechnung
Schreiben Sie eine Funktion, welche zu einem Datum den Wochentag berechnet.
Die Formel wird Georg Glaeser zugeschrieben, möglicherweise angelehnt an eine Formel von Carl Friedrich Gauss.
![](./Wochentagsberechnung.jpg)
(Quelle: https://de.wikipedia.org/wiki/Wochentagsberechnung)
Hier ist eine für C abgewandelte Variante davon.
```
weekday = ((day + (13 * m - 1) / 5 + y + y / 4 + c / 4 - 2 * c) % 7 + 7) % 7
alle Zahlen sind int Werte und alles basiert auf int-Arithmetik
m = 1 + (month + 9) % 12
a = year - 1 (für month < Mar), ansonsten year
y = a % 100
c = a / 100
```
Erweitern sie das Programm so, dass vor dem erfolgreichen Terminieren des Programms folgende Zeile (inklusive Zeilenumbruch) ausgegeben wird: yyyy-mm-dd is a Ddd, wobei yyyy für das Jahr, mm für die Nummer des Monats (01…12) und dd für den Tag im Monat (01…). Z.B. 2020-02-29 is a Sat.
Vorgaben an die Umsetzung
1. Definieren Sie einen enum Typen mit (typedef) Namen weekday_t dessen Werte die Englischen 3-Zeichen Abkürzungen der Tage sind, nämlich Sun, Mon, … Sat und stellen Sie sicher, dass die Abkürzungen für die Werte 0…6 stehen.
2. Schreiben Sie eine Funktion weekday_t calculate_weekday(date_t date) nach der Beschreibung der obigen Formel. Das date Argument ist als gültig angenommen, d.h. es ist ein Programmier-Fehler, wenn das Programm diese Funktion mit einem ungültigen Datum aufruft. Machen Sie dafür als erste Codezeile in der Funktion eine Zu-sicherung (assert(is_valid_date(date));)
3. Schreiben Sie eine Funktion void print_weekday(weekday_t day), welche für jeden gülteigen Tag eine Zeile auf stdout schreibt mit den Englischen 3-Zeichen Ab-kürzungen für den Wochentag, z.B. Sonntag: Sun, Montag: Mon, etc. Wenn ein ungültiger Wert für day erkannt wird, soll assert(!"day is out-of-range"); aufgerufen werden.
Hinweise
• Für interessierte, siehe: https://de.wikipedia.org/wiki/Wochentagsberechnung
___
## 4. Bewertung
Die gegebenenfalls gestellten Theorieaufgaben und der funktionierende Programmcode müssen der Praktikumsbetreuung gezeigt werden. Die Lösungen müssen mündlich erklärt werden können.
| Aufgabe | Kriterium | Gewicht |
| :-- | :-- | :-- |
| alle | Sie können das funktionierende Programm inklusive funktionierende Tests demonstrieren und erklären. | |
| gibIntWert | Eingabe, Bereichsüberprüfung korrekt | 1 |
| istSchaltjahr | Funktion korrekt | 1 |
| TageProMonat | Funktion korrekt | 1 |
| Aufgabe 2 | Fehlenden Teile ergänzt und lauffähig | 1 |
___
## 5. Anhang
### 5.1 Sprachelemente
```int main(int argc, char *argv[]) {
...
} argc: Anzahl Einträge in argv.
argv: Array von Command Line Argumenten.
argv[0]: wie das Programm gestartet wurde
argv[1]: erstes Argument
argv[argc-1]: letztes Argument
int a = 0;
int b = 0;
int c = 0;
int res = sscanf(argv[1]
, "%d-%d-%d"
, &a, &b, &c
);
if (res != 3) {
// Fehler Behandlung...
// ...
}
```
### 5.2 Beschreibung
Siehe man 3 sscanf.
Die Funktion sscanf gibt die Anzahl erfolgreich erkannte Argumente zurück. Unbedingt prüfen und angemessen darauf reagieren.
Die gelesenen Werte werden in a, b und c, gespeichert, dazu müssen Sie die Adresse der Variablen übergeben. Mehr Details dazu werden später erklärt.
fprintf(stderr, "Usage: %s…\n", argv[0]); Siehe man 3 fprintf.
Schreibt formatierten Text auf den stderr Stream.
___
Version: 15.02.2022

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@ -0,0 +1,42 @@
/**
* P02 Praktikum
*
* Das Programm liest einen Monat (1-12) und ein Jahr (1600-2400) ein und
* gibt die Anzahl der Tage dieses Monats aus.
*
* @author Gerrit Burkert, Adaptation bazz
* @version 15-FEB-2013, 16-OCT-2017, 17-OCT-2019, 16-FEB-2022
*/
#include <stdio.h>
#include <stdlib.h>
#define ERROR_IN_MONTH 1
#define ERROR_IN_YEAR 2
///// Student Code
///// END Student Code
int main (int argc, char *argv[]) {
int monat, jahr;
// Monat einlesen und Bereich ueberpruefen
monat = gibIntWert("Monat", 1, 12);
jahr = gibIntWert("Jahr", 1600, 9999);
// Ausgabe zum Test
printf("Monat: %d, Jahr: %d \n", monat, jahr);
// Ausgabe zum Test (hier mit dem ternaeren Operator "?:")
printf("%d ist %s Schaltjahr\n", jahr, istSchaltjahr(jahr) ? "ein" : "kein");
// Ausgabe
printf("Der Monat %02d-%d hat %d Tage.\n", monat, jahr, tageProMonat(jahr, monat));
return 0;
}

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@ -9,7 +9,7 @@
*/
/**
* @file
* @brief Lab P03 weekday
* @brief Lab P02 weekday
*/
#include <stdio.h>
#include <stdlib.h>
@ -111,7 +111,7 @@ int main(int argc, const char *argv[])
// END-STUDENTS-TO-ADD-CODE
// TASK2: calculate the weekday and print it in this format: YYYY-MM-DD is a Ddd\n, e.g. 2021-03-08 is a Mon\n
// TASK2: calculate the weekday and print it in this format: "%04d-%02d-%02d is a %s\n"
// BEGIN-STUDENTS-TO-ADD-CODE
@ -119,3 +119,4 @@ int main(int argc, const char *argv[])
return EXIT_SUCCESS;
}

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@ -0,0 +1,197 @@
/* ----------------------------------------------------------------------------
* -- _____ ______ _____ -
* -- |_ _| | ____|/ ____| -
* -- | | _ __ | |__ | (___ Institute of Embedded Systems -
* -- | | | '_ \| __| \___ \ Zuercher Hochschule Winterthur -
* -- _| |_| | | | |____ ____) | (University of Applied Sciences) -
* -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland -
* ----------------------------------------------------------------------------
*/
/**
* @file
* @brief Test suite for the given package.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/wait.h>
#include <time.h>
#include <assert.h>
#include <CUnit/Basic.h>
#include "test_utils.h"
#ifndef TARGET // must be given by the make file --> see test target
#error missing TARGET define
#endif
/// @brief alias for EXIT_SUCCESS
#define OK EXIT_SUCCESS
/// @brief alias for EXIT_FAILURE
#define FAIL EXIT_FAILURE
/// @brief The name of the STDOUT text file.
#define OUTFILE "stdout.txt"
/// @brief The name of the STDERR text file.
#define ERRFILE "stderr.txt"
// setup & cleanup
static int setup(void)
{
remove_file_if_exists(OUTFILE);
remove_file_if_exists(ERRFILE);
return 0; // success
}
static int teardown(void)
{
// Do nothing.
// Especially: do not remove result files - they are removed in int setup(void) *before* running a test.
return 0; // success
}
static struct tm now()
{
time_t t = time(NULL);
return *localtime(&t);
}
static const char* weekday_name(int wday)
{
assert(0 <= wday && wday <= 6);
static const char* days[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" };
return days[wday];
}
// tests
static void test_task1_fail_no_arg(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " >" OUTFILE " 2>" ERRFILE)), FAIL);
}
static void test_task1_fail_not_gregorian(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1291-08-01 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-14 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1583-10-14 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_fail_month_out_of_range(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-13-13 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-00-13 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-12-13 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_fail_day_out_of_range(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_fail_leap_year(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1900-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1900-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2000-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2000-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2001-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2001-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2004-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2004-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_valid_date(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-01 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-03-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-04-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-05-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-06-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-07-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-08-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-09-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-10-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-11-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-12-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-03-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-04-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-05-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-06-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-07-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-08-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-09-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-10-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-11-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-12-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
}
static void test_task2_start_gregorian(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1581-10-14 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1581-10-15 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-14 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-15 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1583-10-14 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1583-10-15 >" OUTFILE " 2>" ERRFILE)), OK);
const char *out_txt[] = { "1582-10-15 is a Fri\n" };
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-15 >" OUTFILE " 2>" ERRFILE)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
}
static void test_task2_today(void)
{
// arrange
const size_t SIZE = 1000;
char command[SIZE];
struct tm t = now();
snprintf(command, SIZE, "%s %04d-%02d-%02d 2>%s | tail -1 >%s", XSTR(TARGET), t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, ERRFILE, OUTFILE);
char buffer[SIZE];
snprintf(buffer, SIZE, "%04d-%02d-%02d is a %s\n", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, weekday_name(t.tm_wday));
const char *out_txt[] = { buffer };
const char *err_txt[] = { NULL };
// act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(command)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
assert_lines(ERRFILE, err_txt, sizeof(err_txt)/sizeof(*err_txt));
}
/**
* @brief Registers and runs the tests.
* @returns success (0) or one of the CU_ErrorCode (>0)
*/
int main(void)
{
// setup, run, teardown
TestMainBasic("lab test", setup, teardown
, test_task1_fail_no_arg
, test_task1_fail_not_gregorian
, test_task1_fail_month_out_of_range
, test_task1_fail_day_out_of_range
, test_task1_fail_leap_year
, test_task1_valid_date
, test_task2_start_gregorian
, test_task2_today
);
}

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@ -1,7 +0,0 @@
SNP_SHARED_MAKEFILE := $(if $(SNP_SHARED_MAKEFILE),$(SNP_SHARED_MAKEFILE),"~/snp/shared.mk")
TARGET := bin/term-qr-code
SOURCES := src/main.c
TSTSOURCES := tests/tests.c
include $(SNP_SHARED_MAKEFILE)

View File

@ -1,8 +0,0 @@
/**
* @mainpage SNP - P02 QR Code
*
* @section Purpose
*
* This is a lab to display a QR code on the color terminal.
*
*/

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@ -1,29 +0,0 @@
############## ######## ##############
## ## ## ## ##
## ###### ## #### ## ###### ##
## ###### ## ###### ## ###### ##
## ###### ## ## ## ## ###### ##
## ## #### ## ##
############## ## ## ## ##############
######
#### #### ## ######## ## ##
## ## ## ## ## ##
## #### #### #### ## ## ##
## ######## ######
## #### #### ## #### ######
###### ## ## ## ## ##
############## ###### ####
## ## ## ## ####
## ###### ## ############ ## ######
## ###### ## ## #### ##
## ###### ## #### #### #### ####
## ## ## #### ######
############## ############ ## ##

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@ -1,146 +0,0 @@
/* ----------------------------------------------------------------------------
* -- _____ ______ _____ -
* -- |_ _| | ____|/ ____| -
* -- | | _ __ | |__ | (___ Institute of Embedded Systems -
* -- | | | '_ \| __| \___ \ Zuercher Hochschule Winterthur -
* -- _| |_| | | | |____ ____) | (University of Applied Sciences) -
* -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland -
* ----------------------------------------------------------------------------
*/
/**
* @file
* @brief Test suite for the given package.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/wait.h>
#include <CUnit/Basic.h>
#include "test_utils.h"
#ifndef TARGET // must be given by the make file --> see test target
#error missing TARGET define
#endif
/// @brief The name of the STDOUT text file.
#define OUTFILE "stdout.txt"
/// @brief The name of the STDERR text file.
#define ERRFILE "stderr.txt"
/// @brief The input data
#define SNP_INPUT "snp.input"
// setup & cleanup
static int setup(void)
{
remove_file_if_exists(OUTFILE);
remove_file_if_exists(ERRFILE);
return 0; // success
}
static int teardown(void)
{
// Do nothing.
// Especially: do not remove result files - they are removed in int setup(void) *before* running a test.
return 0; // success
}
/// @brief Reset
#define N "\033[0m\n"
/// @brief Black
#define X "\033[40m "
/// @brief White
#define _ "\033[47m "
// tests
static void test_empty_input(void)
{
// arrange
const char *out_txt[] =
{ N
, N
};
const char *err_txt[] = { NULL };
// act
int exit_code = system(XSTR(TARGET) "</dev/null 1>" OUTFILE " 2>" ERRFILE);
// assert
CU_ASSERT_EQUAL(WEXITSTATUS(exit_code), EXIT_SUCCESS);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
assert_lines(ERRFILE, err_txt, sizeof(err_txt)/sizeof(*err_txt));
}
static void test_black_and_white_input(void)
{
// arrange
const char *out_txt[] =
{ N
, _ X _ N
, N
};
const char *err_txt[] = { NULL };
// act
int exit_code = system("echo ' # ' | " XSTR(TARGET) " 1>" OUTFILE " 2>" ERRFILE);
// assert
CU_ASSERT_EQUAL(WEXITSTATUS(exit_code), EXIT_SUCCESS);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
assert_lines(ERRFILE, err_txt, sizeof(err_txt)/sizeof(*err_txt));
}
static void test_snp_input(void)
{
// arrange
const char *out_txt[] =
{ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X X X X X X X X X X X X X _ _ X X X X X X X X _ _ _ _ X X X X X X X X X X X X X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ X X X X _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ _ _ X X X X X X _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ _ _ X X _ _ X X _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ X X X X _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X X X X X X X X X X X X X _ _ X X _ _ X X _ _ X X _ _ X X X X X X X X X X X X X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ X X X X X X _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X X X _ _ X X X X _ _ X X _ _ _ _ X X X X X X X X _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ X X _ _ X X _ _ _ _ _ _ _ _ X X _ _ X X _ _ X X _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X _ _ X X X X _ _ X X X X _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ X X _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ _ _ _ _ X X X X X X X X _ _ _ _ X X X X X X _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ X X X X _ _ X X X X _ _ _ _ X X _ _ _ _ X X X X _ _ X X X X X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ X X X X X X _ _ X X _ _ X X _ _ X X _ _ X X _ _ X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X X X X X X X X X X X X X _ _ _ _ _ _ _ _ _ _ X X X X X X _ _ X X X X _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ X X _ _ X X X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ X X X X X X X X X X X X _ _ _ _ X X _ _ X X X X X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ X X _ _ _ _ _ _ X X X X _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ X X X X X X _ _ X X _ _ _ _ X X X X _ _ X X X X _ _ _ _ X X X X _ _ X X X X _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ X X _ _ X X _ _ _ _ _ _ _ _ _ _ X X X X _ _ X X X X X X _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ X X X X X X X X X X X X X X _ _ X X X X X X X X X X X X _ _ _ _ X X _ _ _ _ X X _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ N
, N
};
const char *err_txt[] = { NULL };
// act
int exit_code = system(XSTR(TARGET) "<" SNP_INPUT " 1>" OUTFILE " 2>" ERRFILE);
// assert
CU_ASSERT_EQUAL(WEXITSTATUS(exit_code), EXIT_SUCCESS);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
assert_lines(ERRFILE, err_txt, sizeof(err_txt)/sizeof(*err_txt));
}
/**
* @brief Registers and runs the tests.
* @returns success (0) or one of the CU_ErrorCode (>0)
*/
int main(void)
{
// setup, run, teardown
TestMainBasic("lab test", setup, teardown
, test_empty_input
, test_black_and_white_input
, test_snp_input
);
}

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#include <stdlib.h>
#include <stdio.h>
#define OPERAND_BUFFER_SIZE 10
typedef struct {
/*
Students: The Expression struct should hold the two operands and
the operation (use a char for the operation)
*/
int operator1;
int operator2;
char operation;
} Expression;
int bits_per_int() {
return sizeof(unsigned int) * 8;
}
unsigned int parse_operand(char operand_str[]) {
unsigned int operand;
if (operand_str[0] == '0' && operand_str[1] == 'x') {
sscanf(&operand_str[2], "%x", &operand);
} else if (operand_str[0] == '0') {
sscanf(&operand_str[1], "%o", &operand);
} else {
sscanf(operand_str, "%u", &operand);
}
return operand;
}
void print_binary(unsigned int value) {
// Students: Print a single number as a binary string
int chars[32];
int counter;
for(counter = 0; counter < 32; counter = counter + 1) {
if((value % 2) == 0) {
chars[counter] = 0;
} else {
chars[counter] = 1;
}
value = value / 2;
}
for(counter = 31; counter >= 0; counter--) {
printf("%d", chars[counter]);
if(counter == 24 || counter == 16 || counter == 8) {
printf("'");
}
}
}
void print_bit_operation_bin(Expression expression, unsigned int result) {
/*
Students: Print the entire operation in bin including the result
Bin:
00000000'00000000'00000000'00001100
00000000'00000000'00000000'00001111 ^
-----------------------------------
00000000'00000000'00000000'00000011
*/
printf("Bin:\n");
print_binary(expression.operator1);
printf("\n");
print_binary(expression.operator2);
printf(" %c\n", expression.operation);
printf("-----------------------------------\n");
print_binary(result);
printf("\n");
}
void print_bit_operation_hex(Expression expression, unsigned int result) {
/*
Students: Print the entire operation in hex including the result
Hex:
0x0c ^ 0x0f = 0x03
*/
printf("\nHex:\n0x%x %c 0x%x\n0x%x\n", expression.operator1, expression.operation, expression.operator2, result);
}
void print_bit_operation_dec(Expression expression, unsigned int result) {
/*
Students: Print the entire operation in hex including the result
Dec:
12 ^ 15 = 3
*/
printf("\nDec:\n%d %c %d\n%d\n", expression.operator1, expression.operation, expression.operator2, result);
}
unsigned int bit_operation(Expression expression) {
// Students: Do the actual bit operation and return the result
switch(expression.operation) {
case '&': return expression.operator1 & expression.operator2; break;
case '|': return expression.operator1 | expression.operator2; break;
case '^': return expression.operator1 ^ expression.operator2; break;
case '<': return expression.operator1 < expression.operator2; break;
case '>': return expression.operator1 > expression.operator2; break;
default: printf("ubekannte Operation\n"); break;
}
}
int main(){
char operand1_str[10];
char operand2_str[10];
char operation;
unsigned int operand1, operand2;
do {
printf("Geben sie die Bit-Operation ein:\n");
scanf("%s %c %s", operand1_str, &operation, operand2_str);
operand1 = parse_operand(operand1_str);
operand2 = parse_operand(operand2_str);
Expression expression; // Students: Create an expression
expression.operator1 = operand1;
expression.operator2 = operand2;
expression.operation = operation;
unsigned int result = bit_operation(expression);
print_bit_operation_bin(expression, result);
print_bit_operation_hex(expression, result);
print_bit_operation_dec(expression, result);
while(getchar() != '\n');
printf("\nMöchten sie weiter machen oder abbrechen? [(n)ext|(q)uit] ");
} while(getchar() == 'n');
printf("Byebye..\n");
return EXIT_SUCCESS;
}

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#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#define RED "\x1B[31m"
#define GRN "\x1B[32m"
#define YEL "\x1B[33m"
#define WHT "\x1B[37m"
#define RESET "\x1B[0m"
enum SHAPE {OVAL, RECTANGLE};
/*
Students: Create a new type "Graphic" that can store:
- shape (OVAL, RECTANGLE) -> create a new enum for this type
- size
- color
*/
typedef struct {
int shape;
int size;
char *color;
} Graphic;
void paint(Graphic graphic) {
double radius = graphic.size / 2.0;
int i,j;
for (i = 0; i <= 2 * radius; i++){
for (j = 0; j <= 2 * radius; j++){
switch(graphic.shape) {
case RECTANGLE: printf("%s*" RESET, graphic.color); break;
case OVAL: {
double distance = sqrt((i - radius) * (i - radius) + (j - radius) * (j - radius));
if (distance > radius - 0.5 && distance < radius + 0.5) {
printf("%s*" RESET, graphic.color);
} else {
printf(" ");
}
} break;
}
}
printf("\n");
}
}
int main() {
int input;
Graphic graphic;
do {
printf("Geben Sie die gewünschte Form an [OVAL=0 | RECTANGLE=1]:");
scanf("%d", &input);
// Students: store the input in graphic
graphic.shape = input;
printf("Geben Sie die gewünschte Grösse an:");
scanf("%u", &input);
// Students: store the input in graphic
graphic.size = input;
printf("Geben Sie die gewünschte Farb an [RED=0 | GREEN=1 | YELLOW=2]:");
scanf("%d", &input);
// Students: store the input in graphic
switch (input) {
case 0: graphic.color = RED; break;
case 1: graphic.color = GRN; break;
case 2: graphic.color = YEL; break;
}
paint(graphic);
while(getchar() != '\n'); // empty buffer
printf("\nMöchten sie weiter machen oder abbrechen? [(n)ext|(q)uit] ");
} while(getchar() == 'n');
printf("Byebye..\n");
return EXIT_SUCCESS;
}

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#include <stdlib.h>
#include <stdio.h>
#include <math.h>
int main() {
unsigned int number = 0x77; //0111 0101
unsigned int bit = 3; // bit at position 3
// Setting a bit
unsigned int vector = 1;
vector = vector << bit;
number = number | vector; //
printf("number after setting bit 3: 0x%02X\n", number);
// Clearing a bit
bit = 1;
vector = 1;
vector = vector << bit;
vector = vector ^ 0xFF;
number = number & vector;
printf("number after clearing bit 1: 0x%02X\n", number);
// Toggling a bit
bit = 0;
vector = 1;
vector <<= bit;
number ^= vector;
printf("number after Toggling bit 0: 0x%02X\n", number);
return EXIT_SUCCESS;
}

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#include <stdlib.h>
#include <stdio.h>
int main(){
int a = 3;
int b = 4;
printf("a: %d; b: %d\n", a, b);
// swapping
a = a ^ b;
b = a ^ b;
a = a ^ b;
printf("a: %d; b: %d\n", a, b);
return EXIT_SUCCESS;
}

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#include <stdlib.h>
#include <stdio.h>
int main(){
char word[8] = "sREedEv";
char *wordptr = &word[0];
while(wordptr < &word[7]) {
printf("UPPERCASE: %c\n", *wordptr & '_'); // converts the char into uppercase regardless of the current casing
printf("LOWERCASE: %c\n", *wordptr | ' '); // converts the char into lowercase regardless of the current casing
wordptr++;
}
return EXIT_SUCCESS;
}
// _ ASCII Wert 95 = 0b101111 bitweise & verknüpft setzt bit 4 auf 0
// _ ASCII Wert 95 = 0b101111 bitweise | verknüpft setzt bit 4 auf 1
// gemäss ASCII Tabelle hat ein Zeichen gross und kleingeschriben den gleichen Binärwert, nur Bit 4 unterscheidet sich.

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#include <stdio.h>
#include <stdlib.h>
int main(){
int a = 64; // any positive number
int pruefzahl = 1;
int imax = 0;
for(int i = 2; i < (a+2); i = i * 2) {
imax = i;
pruefzahl = pruefzahl + i;
}
pruefzahl = pruefzahl - imax;
if(a > 0 && ((a & pruefzahl) == 0)){
printf("%d is a power of 2\n", a);
}
else {
printf("%d is not a power of 2\n", a);
}
return EXIT_SUCCESS;
}

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# 03 - Bit Operationen, Struct, Typedef
## 1. Bit Operationen
![](./135oALYhkYyXB2aG0F-qrwA.jpeg)
Bit Operationen sind allgegenwärtig in den Computer-Wissenschaften und finden in vielen Disziplinen Anwendung. Folgend ein kleiner Auszug aus den wichtigsten Themen:
- **Bit Felder**: Sind die effizienteste Art, etwas darzustellen, dessen Zustand durch mehrere "wahr" oder "falsch" definiert werden kann. Besonders auf Systemen mit begrenzten Ressourcen sollte jede überflüssige Speicher-Allozierung vermieden werden.
Beispiel:
```c
// primary colors
#define BLUE 0b100
#define GREEN 0b010
#define RED 0b001
// mixed colors
#define BLACK 0 /* 000 */
#define YELLOW (RED | GREEN) /* 011 */
#define MAGENTA (RED | BLUE) /* 101 */
#define CYAN (GREEN | BLUE) /* 110 */
#define WHITE (RED | GREEN | BLUE) /* 111 */
```
[https://de.wikipedia.org/wiki/Bitfeld](https://de.wikipedia.org/wiki/Bitfeld)
- **Kommunikation**:
- **Prüfsummen/Paritätsbit**: Übertragungsfehler und Integrität können bis zu einem definiertem Grad erkannt werden. Je nach Komplexität der Berechnung können mehrere Fehler erkannt oder auch korrigiert werden.
[https://de.wikipedia.org/wiki/Parit%C3%A4tsbit](https://de.wikipedia.org/wiki/Parit%C3%A4tsbit), [https://de.wikipedia.org/wiki/Pr%C3%BCfsumme](https://de.wikipedia.org/wiki/Pr%C3%BCfsumme)
- **Stoppbit**: Markieren bei asynchronen seriellen Datenübertragungen das Ende bzw. Start eines definierten Blocks.
[https://de.wikipedia.org/wiki/Stoppbit](https://de.wikipedia.org/wiki/Stoppbit)
- **Datenflusssteuerung**: Unterschiedliche Verfahren, mit denen die Datenübertragung von Endgeräten an einem Datennetz, die nicht synchron arbeiten, so gesteuert wird, dass eine möglichst kontinuierliche Datenübermittlung ohne Verluste erfolgen kann.
[https://de.wikipedia.org/wiki/Datenflusssteuerung](https://de.wikipedia.org/wiki/Datenflusssteuerung)
- ...
- **Datenkompression**: Bei der Datenkompression wird versucht, redundante Informationen zu entfernen. Dazu werden die Daten in eine Darstellung überführt, mit der sich alle oder zumindest die meisten Information in kürzerer Form darstellen lassen.
[https://de.wikipedia.org/wiki/Datenkompression](https://de.wikipedia.org/wiki/Datenkompression)
- **Kryptographie**: Konzeption, Definition und Konstruktion von Informationssystemen, die widerstandsfähig gegen Manipulation und unbefugtes Lesen sind. [https://de.wikipedia.org/wiki/Verschl%C3%BCsselung](https://de.wikipedia.org/wiki/Verschl%C3%BCsselung)
- **Grafik-Programmierung**: XOR (oder ^) ist hier besonders interessant, weil eine zweite Eingabe derselben Eingabe die erste rückgängig macht (ein Beispiel dazu weiter unten: "Variablen tauschen, ohne Dritt-Variable
"). Ältere GUIs verwendeten dies für die Hervorhebung von Auswahlen und andere Überlagerungen, um kostspielige Neuzeichnungen zu vermeiden. Sie sind immer noch nützlich in langsamen Grafikprotokollen (z. B. Remote-Desktop).
### 1.1 Übungen
#### 1. Basis Operationen
Manipulationen von einzelnen Bits gehören zu den Basis Operationen und dienen als Grundlagen um weitere komplexere Konstrukte zu schaffen.
Verfollständigen sie folgendes Beispiel mit den drei Basis Operationen. Dabei gibt die Variable `bit` an, welches Bit manipuliert werden soll (Denken sie daran, dass die Bit-Positionen bei 0 beginnen. Bit 3 ist also das vierte Bit von rechts). Bei den gefragten Manipulationen, soll nur das angegebene `bit` geändert werden und der Rest soll unverändert bleiben:
- Bit 3 setzen: `0011 => 1011`
- Bit 1 löschen: `1011 => 1001`
- Bit 0 flippen: `1001 => 1000`
Versuchen sie die Operationen in C umzusetzen:
```c
#include <stdlib.h>
#include <stdio.h>
int main() {
unsigned int number = 0x75;
unsigned int bit = 3; // bit at position 3
// Setting a bit
number = ...;
// Clearing a bit
bit = 1;
number = ...;
// Toggling a bit
bit = 0;
number = ...;
printf("number = 0x%02X\n", number);
return EXIT_SUCCESS;
}
```
#### 2. Variablen tauschen (ohne Dritt-Variable)
Zwei Variablen zu vertauschen scheint ein einfach lösbares Problem zu sein. Eine offensichtliche Variante wäre mittels einer temporären Variablen:
```c
#include <stdlib.h>
#include <stdio.h>
int main(){
int a = 3;
int b = 4;
printf("a: %d; b: %d\n", a, b);
int temp = a;
a = b;
b = temp;
printf("a: %d; b: %d\n", a, b);
return EXIT_SUCCESS;
}
```
Es gibt aber auch eine Variante, die ohne zusätzliche Variable auskommt. Dabei wird die Tatsache, dass eine zweite XOR Operation eine erste XOR Operation rückgängig macht:
`0011 XOR 0100 = 0111`
`0111 XOR 0100 = 0011`
Somit kommt man von einem XOR Resultat (`0111`) wieder auf beide Anfangs Operanden zurück indem man einfach ein zweites Mal mit einem Operanden eine XOR Verknüpfung macht. Damit kann ein Operand als Zwischenspeicher dienen und man muss nicht extra eine Zusatzvariable verwenden.
Überlegen sie sich wie sie damit zwei Variablen vertauschen können ohne Zusatzvariable:
```c
#include <stdlib.h>
#include <stdio.h>
int main(){
int a = 3;
int b = 4;
printf("a: %d; b: %d\n", a, b);
...
printf("a: %d; b: %d\n", a, b);
return EXIT_SUCCESS;
}
```
#### 3. Lower- / Uppercase
Folgendes Code Beispiel kann Buchstaben in Gross- oder Kleinbuchstaben wandeln mit nur einer einzigen Bit-Operation. Überlegen sie sich warum das funktioniert, damit sie es jemand anderem in ihren Worten erklären könnten. Machen sie Notizen falls nötig.
```c
#include <stdlib.h>
#include <stdio.h>
int main(){
char word[8] = "sREedEv";
char *wordptr = &word[0];
while(wordptr < &word[7]) {
printf("UPPERCASE: %c\n", *wordptr & '_'); // converts the char into uppercase regardless of the current casing
printf("LOWERCASE: %c\n", *wordptr | ' '); // converts the char into lowercase regardless of the current casing
wordptr++;
}
return EXIT_SUCCESS;
}
```
#### 4. Prüfen auf 2-er Potenz
Um eine gegebene Zahl zu prüfen ob sie eine 2er Potenz ist, können wir folgende Bit-Muster vergleichen:
Beispiel mit der Zahl 8: `1000 & 0111 == 0`. Wir prüfen also, ob die gegebene Zahl 8 (`1000`) nur ein Bit auf `1` hat und den Rest auf `0`.
Überlegen Sie sich einen Algorithmus um dies für beliebige positive Zahlen zu prüfen. Das Bitmuster, dass für die `&` Operation gebraucht wird, kann mittel Subtraktion von 1 berechnet werden (`1000 - 1 = 0111`):
```c
#include <stdio.h>
#include <stdlib.h>
int main(){
int a = 32; // any positive number
if(a > 0 && ...){
printf("%d is a power of 2", a);
}
return EXIT_SUCCESS;
}
```
___
## 2. Struct & typedef
### 2.1 Bit Operationen Rechner
Vervollständigen sie das beiliegende Programm `bin_calculator.c`. Es soll einfache Bit-Operationen mit zwei Operanden lösen können. Die unterstützten Operationen sind:
- & (AND)
- | (OR)
- ^ (XOR)
- < (left shift)
- \> (right shift)
Eine Rechnung kann direkt als einen String eingeben werden (z.B: `0x0c ^ 0x0f`). Dabei werden Hexadezimal, Oktal und Dezimal als Eingabeformate akzeptiert. Die Rechnung wird in 3 Teile aufgeteilt (Operand 1, Operand 2, Operation) und in einer Datenstruktur gespeichert (`struct`).
Als Ausgabe soll die Rechnung wie folgt dargestellt werden:
```
Bin:
00000000'00000000'00000000'00001100
00000000'00000000'00000000'00001111 ^
-----------------------------------
00000000'00000000'00000000'00000011
Hex:
0x0c ^ 0x0f = 0x03
Dec:
12 ^ 15 = 3
```
### 2.2 Einfache Formen
Der Code in `simple_shape.c` kompiliert nicht. Überlegen sie sich, wie der neue Datentype `Graphic` aussehen soll, damit alle nötigen Informationen dazu gespeichert werden können.
Eine Form (`Graphic`) wird aus folgenden Attributen zusammengesetzt:
- **Shape**: *OVAL* oder *RECTANGLE* (verwenden sie dazu einen separaten `enum` Typ)
- **Size**: Ein positiver Integer
- Für *RECTANGLE* bestimmt er die Seitengrösse
- Für *OVAL* bestimmt er den Radius
- **Color**: char Pointer zu dem vordefinierten char array mit Farbinformationen. Verwenden sie: `char *color;`
Erweitern sie den Code an den markierten Stellen, damit er kompiliert. Per Terminal sollte es möglich sein die Attribute für die Form zu bestimmen, um sie danach angezeigt zu bekommen.
**Bemerkung**: Das Programm verwendet die Math Bibliothek `math.h`. Um das Programm kompilieren zu können, müssen sie das Flag `-lm` verwenden:
gcc -o main main.c -lm
___
## 4. Bewertung
Die gegebenenfalls gestellten Theorieaufgaben und der funktionierende Programmcode müssen der Praktikumsbetreuung gezeigt werden. Die Lösungen müssen mündlich erklärt werden können.
| Aufgabe | Kriterium | Gewicht |
| :-- | :-- | :-- |
| alle | Sie können das funktionierende Programm demonstrieren und erklären. | |
| Basis Operationen | Funktion korrekt | 0.5 |
| Variablen tauschen | Funktion korrekt | 0.5 |
| Lower- / Uppercase | Funktion korrekt | 0.5 |
| Prüfen auf 2-er Potenz | Funktion korrekt | 0.5 |
| Bit Operationen Rechner | Fehlenden Teile ergänzt und lauffähig | 1 |
| Einfache Formen | Fehlenden Teile ergänzt und lauffähig | 1 |

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#include <stdlib.h>
#include <stdio.h>
#define OPERAND_BUFFER_SIZE 10
typedef struct {
/*
Students: The Expression struct should hold the two operands and
the operation (use a char for the operation)
*/
} Expression;
int bits_per_int() {
return sizeof(unsigned int) * 8;
}
unsigned int parse_operand(char operand_str[]) {
unsigned int operand;
if (operand_str[0] == '0' && operand_str[1] == 'x') {
sscanf(&operand_str[2], "%x", &operand);
} else if (operand_str[0] == '0') {
sscanf(&operand_str[1], "%o", &operand);
} else {
sscanf(operand_str, "%u", &operand);
}
return operand;
}
void print_binary(unsigned int value) {
// Students: Print a single number as a binary string
}
void print_bit_operation_bin(Expression expression, unsigned int result) {
/*
Students: Print the entire operation in bin including the result
Bin:
00000000'00000000'00000000'00001100
00000000'00000000'00000000'00001111 ^
-----------------------------------
00000000'00000000'00000000'00000011
*/
}
void print_bit_operation_hex(Expression expression, unsigned int result) {
/*
Students: Print the entire operation in hex including the result
Hex:
0x0c ^ 0x0f = 0x03
*/
}
void print_bit_operation_dec(Expression expression, unsigned int result) {
/*
Students: Print the entire operation in hex including the result
Dec:
12 ^ 15 = 3
*/
}
unsigned int bit_operation(Expression expression) {
// Students: Do the actual bit operation and return the result
}
int main(){
char operand1_str[10];
char operand2_str[10];
char operation;
unsigned int operand1, operand2;
do {
printf("Geben sie die Bit-Operation ein:\n");
scanf("%s %c %s", operand1_str, &operation, operand2_str);
operand1 = parse_operand(operand1_str);
operand2 = parse_operand(operand2_str);
Expression expression = ... ; // Students: Create an expression
unsigned int result = bit_operation(expression);
print_bit_operation_bin(expression, result);
print_bit_operation_hex(expression, result);
print_bit_operation_dec(expression, result);
while(getchar() != '\n');
printf("\nMöchten sie weiter machen oder abbrechen? [(n)ext|(q)uit] ");
} while(getchar() == 'n');
printf("Byebye..\n");
return EXIT_SUCCESS;
}

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@ -0,0 +1,67 @@
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#define RED "\x1B[31m"
#define GRN "\x1B[32m"
#define YEL "\x1B[33m"
#define WHT "\x1B[37m"
#define RESET "\x1B[0m"
/*
Students: Create a new type "Graphic" that can store:
- shape (OVAL, RECTANGLE) -> create a new enum for this type
- size
- color
*/
void paint(Graphic graphic) {
double radius = graphic.size / 2.0;
int i,j;
for (i = 0; i <= 2 * radius; i++){
for (j = 0; j <= 2 * radius; j++){
switch(graphic.shape) {
case RECTANGLE: printf("%s*" RESET, graphic.color); break;
case OVAL: {
double distance = sqrt((i - radius) * (i - radius) + (j - radius) * (j - radius));
if (distance > radius - 0.5 && distance < radius + 0.5) {
printf("%s*" RESET, graphic.color);
} else {
printf(" ");
}
} break;
}
}
printf("\n");
}
}
int main() {
int input;
Graphic graphic;
do {
printf("Geben Sie die gewünschte Form an [OVAL=0 | RECTANGLE=1]:");
scanf("%d", &input);
// Students: store the input in graphic
printf("Geben Sie die gewünschte Grösse an:");
scanf("%u", &input);
// Students: store the input in graphic
printf("Geben Sie die gewünschte Farb an [RED=0 | GREEN=1 | YELLOW=2]:");
scanf("%d", &input);
// Students: store the input in graphic
paint(graphic);
while(getchar() != '\n'); // empty buffer
printf("\nMöchten sie weiter machen oder abbrechen? [(n)ext|(q)uit] ");
} while(getchar() == 'n');
printf("Byebye..\n");
return EXIT_SUCCESS;
}

Binary file not shown.

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@ -1,8 +0,0 @@
/**
* @mainpage SNP - P03 Calculate bounding box
*
* @section Purpose
*
* This is a lab to calculate the bounding box of some triangle and to compare the boxes
*
*/

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@ -1,209 +0,0 @@
/* ----------------------------------------------------------------------------
* -- _____ ______ _____ -
* -- |_ _| | ____|/ ____| -
* -- | | _ __ | |__ | (___ Institute of Embedded Systems -
* -- | | | '_ \| __| \___ \ Zuercher Hochschule Winterthur -
* -- _| |_| | | | |____ ____) | (University of Applied Sciences) -
* -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland -
* ----------------------------------------------------------------------------
*/
/**
* @file
* @brief Lab P03 weekday
*/
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <assert.h>
/// @brief point of two coordinate axes
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
/// @brief box with an origin point and a dimension w and h
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
/// @brief triangle given by three points a, b, and c
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
/**
* @brief Compares two double values with a given hard coded tolerance.
* @param [in] a the first value
* @param [in] b the second value
* @returns 0 if fabs(a-b) <= tolerance, -1 if a < b, 1 otherwise
* @remark the tolerance is expected to be 0.05 (internally hard coded)
*/
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
/**
* @brief Compares two box parameters for their area (w * h of the box).
* @param [in] a the first box
* @param [in] b the second box
* @returns the return value from compare_double() when given the areas of both boxes as parameter to compare_double()
*/
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
/**
* @brief Compares the area of the parameter against 0.
* @param [in] box the box to check against area 0
* @returns compare_double() == 0 with the boxes area and 0 as parameters
*/
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
/**
* @brief Calculates the bounding box of a triangle
* @param [in] t the trinagle for which the baounding box is to be calculated
* @returns the bounding box of the triangle
* @remark calculates first the point with the minimum x and y of the triangle's points,
* plus as second point the one with the max coordinates of all points
* @remark the minial point is the origin of the bounding box, the width and hight is the x/y delta of the two points
*
*/
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE
// forward declaration of used functions in main()
static box_t get_match(box_t board, triangle_t t);
static triangle_t triangle_rotate(triangle_t t, double degree);
static void write_data(box_t board, triangle_t t, int degree);
/**
* @brief main function
* @param argc [in] number of entries in argv
* @param argv [in] program name plus command line arguments
* @returns returns success if valid date is given, failure otherwise
*/
int main(int argc, const char *argv[])
{
int x1, x2, x3, y1, y2, y3;
if (argc < 2 || sscanf(argv[1], "%d/%d-%d/%d-%d/%d", &x1, &y1, &x2, &y2, &x3, &y3) != 6) {
fprintf(stderr, "Usage: %s x1/y1-x2/y2-x3/y3\ne.g. 0/0-100/0-50/50\n", argv[0]);
return EXIT_FAILURE;
}
box_t board = { { 0, 0 }, 100, 200 };
// rotate the triangle in steps of 1 degree to find the "best position" of the triangle in the board
triangle_t t = { { x1, y1 }, { x2, y2 }, { x3, y3 } };
int degree_best = -1;
box_t best;
for(int degree = 0; degree < 360; degree++) {
box_t match = get_match(board, triangle_rotate(t, degree));
if (!is_zero_area(match)) {
if (degree_best == -1 || compare_area(match, best) < 0) {
degree_best = degree;
best = match;
}
}
}
// write as tabular file
write_data(board, t, degree_best);
return EXIT_SUCCESS;
}
/****************** internal functions ********************/
// forward declarations
static point_t point_rotate(point_t p, double degree);
static point_t point_move(point_t p, double dx, double dy);
static triangle_t triangle_move(triangle_t t, double dx, double dy);
static box_t get_match(box_t board, triangle_t t)
{
box_t b = triangle_bounding_box(t);
if (compare_double(board.w, b.w) < 0) return (box_t){ board.p, 0, 0 };
if (compare_double(board.h, b.h) < 0) return (box_t){ board.p, 0, 0 };
return (box_t){ board.p, b.w, b.h };
}
static triangle_t triangle_rotate(triangle_t t, double degree)
{
return (triangle_t){ point_rotate(t.a, degree), point_rotate(t.b, degree), point_rotate(t.c, degree) };
}
static triangle_t triangle_move(triangle_t t, double dx, double dy)
{
return (triangle_t){ point_move(t.a, dx, dy), point_move(t.b, dx, dy), point_move(t.c, dx, dy) };
}
static point_t point_rotate(point_t p, double degree)
{
double rad = fmod(degree, 360.0) * acos(-1.0) / 180.0;
double s = sin(rad);
double c = cos(rad);
return (point_t){ c*p.x - s*p.y, s*p.x + c*p.y };
}
static point_t point_move(point_t p, double dx, double dy)
{
return (point_t) { p.x+dx, p.y+dy };
}
static void write_data(box_t board, triangle_t t, int degree)
{
double border = 10.0;
double gap = 2*border;
// move board to origin
board.p.x = 0.0;
board.p.y = 0.0;
// move original triangle to above the board
box_t tbb = triangle_bounding_box(t);
t = triangle_move(t, -tbb.p.x, -tbb.p.y + board.h + gap);
tbb.p.x = 0.0;
tbb.p.y = board.h + gap;
// view box
box_t view = { { -border, -border }, fmax(board.w, tbb.w) + 2 * border, board.h + gap + tbb.h + 2 * border };
printf("viewbox:%.1f:%.1f:%.1f:%.1f\n", view.p.x, view.p.y, view.w, view.h);
printf("rect:%.1f:%.1f:%.1f:%.1f:%s\n", board.p.x, board.p.y, board.w, board.h, "gray");
printf("polygon:%.1f:%.1f:%.1f:%.1f:%.1f:%.1f:%s\n", t.a.x, t.a.y, t.b.x, t.b.y, t.c.x, t.c.y, "green");
// there was a match, show it
if (degree >= 0) {
triangle_t rotated = triangle_rotate(t, degree);
box_t rbb = triangle_bounding_box(rotated);
t = triangle_move(rotated, -rbb.p.x, -rbb.p.y); // move to origin
printf("polygon:%.1f:%.1f:%.1f:%.1f:%.1f:%.1f:%s\n", t.a.x, t.a.y, t.b.x, t.b.y, t.c.x, t.c.y, "yellow");
}
}

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@ -1,40 +0,0 @@
#!/bin/bash
#!/bin/bash
# produces a crude HTML embedded SVG drawing from a tabular file (given on stdin) with columns separated by ":"
# usage: tab2svg < inbut.txt > output.html
awk $* -- '
BEGIN {
FS=":" # field-separator: which character separats fields in a record (i.e. in a line)
print "<!DOCTYPE html>"
print "<html>"
print " <head>"
print " <title>SVG Data</title>"
print " </head>"
print " <body>"
}
/^viewbox/ {
x = $2
y = $3
w = $4
h = $5
}
/^rect/ {
if (h > 0) {
printf " <b>board = %dmm x %dmm</b>\n</p>\n", $4, $5
printf " <svg width=\"%dmm\" viewbox=\"%.1f %.1f %.1f %.1f\" xmlns=\"http://www.w3.org/2000/svg\">\n", $4, x, y, w, h
h = 0
}
printf " <rect fill=\"%s\" stroke=\"black\" x=\"%.1f\" y=\"%.1f\" width=\"%.1f\" height=\"%.1f\"/>\n", $6, $2, $3, $4, $5
}
/^polygon/ {
printf " <polygon fill=\"%s\" stroke=\"black\" points=\"%.1f,%.1f %.1f,%.1f %.1f,%.1f\"/>\n", $8, $2, $3, $4, $5, $6, $7
}
END {
print " </svg>"
print " </body>"
print "</html>"
}
'

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@ -1,109 +0,0 @@
/* ----------------------------------------------------------------------------
* -- _____ ______ _____ -
* -- |_ _| | ____|/ ____| -
* -- | | _ __ | |__ | (___ Institute of Embedded Systems -
* -- | | | '_ \| __| \___ \ Zuercher Hochschule Winterthur -
* -- _| |_| | | | |____ ____) | (University of Applied Sciences) -
* -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland -
* ----------------------------------------------------------------------------
*/
/**
* @file
* @brief Test suite for the given package.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/wait.h>
#include <time.h>
#include <assert.h>
#include <CUnit/Basic.h>
#include "test_utils.h"
#ifndef TARGET // must be given by the make file --> see test target
#error missing TARGET define
#endif
/// @brief alias for EXIT_SUCCESS
#define OK EXIT_SUCCESS
/// @brief alias for EXIT_FAILURE
#define FAIL EXIT_FAILURE
/// @brief The name of the STDOUT text file.
#define OUTFILE "stdout.txt"
/// @brief The name of the STDERR text file.
#define ERRFILE "stderr.txt"
// setup & cleanup
static int setup(void)
{
remove_file_if_exists(OUTFILE);
remove_file_if_exists(ERRFILE);
return 0; // success
}
static int teardown(void)
{
// Do nothing.
// Especially: do not remove result files - they are removed in int setup(void) *before* running a test.
return 0; // success
}
// tests
static void test_no_match(void)
{
// arrange
const char *out_txt[] = {
"viewbox:-10.0:-10.0:250.0:290.0\n",
"rect:0.0:0.0:100.0:200.0:gray\n",
"polygon:0.0:220.0:230.0:220.0:100.0:270.0:green\n",
};
// act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 0/0-230/0-100/50 >" OUTFILE " 2>" ERRFILE)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
}
static void test_initial_match(void)
{
// arrange
const char *out_txt[] = {
"viewbox:-10.0:-10.0:120.0:340.0\n",
"rect:0.0:0.0:100.0:200.0:gray\n",
"polygon:0.0:220.0:100.0:220.0:100.0:320.0:green\n",
"polygon:0.0:0.0:100.0:0.0:100.0:100.0:yellow\n",
};
// act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 0/0-100/0-100/100 >" OUTFILE " 2>" ERRFILE)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
}
static void test_tight_match(void)
{
// arrange
const char *out_txt[] = {
"viewbox:-10.0:-10.0:225.0:290.0\n",
"rect:0.0:0.0:100.0:200.0:gray\n",
"polygon:0.0:220.0:205.0:220.0:205.0:270.0:green\n",
"polygon:94.8:0.0:48.7:199.7:0.0:188.5:yellow\n",
};
// act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 0/0-205/0-205/50 >" OUTFILE " 2>" ERRFILE)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
}
/**
* @brief Registers and runs the tests.
* @returns success (0) or one of the CU_ErrorCode (>0)
*/
int main(void)
{
// setup, run, teardown
TestMainBasic("lab test", setup, teardown
, test_no_match
, test_initial_match
, test_tight_match
);
}

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@ -1,8 +0,0 @@
/**
* @mainpage SNP - P03 Calculate the week day
*
* @section Purpose
*
* This is a lab to calculate the week day from a given Gregorian date.
*
*/

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@ -1,196 +0,0 @@
/* ----------------------------------------------------------------------------
* -- _____ ______ _____ -
* -- |_ _| | ____|/ ____| -
* -- | | _ __ | |__ | (___ Institute of Embedded Systems -
* -- | | | '_ \| __| \___ \ Zuercher Hochschule Winterthur -
* -- _| |_| | | | |____ ____) | (University of Applied Sciences) -
* -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland -
* ----------------------------------------------------------------------------
*/
/**
* @file
* @brief Test suite for the given package.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/wait.h>
#include <time.h>
#include <assert.h>
#include <CUnit/Basic.h>
#include "test_utils.h"
#ifndef TARGET // must be given by the make file --> see test target
#error missing TARGET define
#endif
/// @brief alias for EXIT_SUCCESS
#define OK EXIT_SUCCESS
/// @brief alias for EXIT_FAILURE
#define FAIL EXIT_FAILURE
/// @brief The name of the STDOUT text file.
#define OUTFILE "stdout.txt"
/// @brief The name of the STDERR text file.
#define ERRFILE "stderr.txt"
// setup & cleanup
static int setup(void)
{
remove_file_if_exists(OUTFILE);
remove_file_if_exists(ERRFILE);
return 0; // success
}
static int teardown(void)
{
// Do nothing.
// Especially: do not remove result files - they are removed in int setup(void) *before* running a test.
return 0; // success
}
static struct tm now()
{
time_t t = time(NULL);
return *localtime(&t);
}
static const char* weekday_name(int wday)
{
assert(0 <= wday && wday <= 6);
static const char* days[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" };
return days[wday];
}
// tests
static void test_task1_fail_no_arg(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " >" OUTFILE " 2>" ERRFILE)), FAIL);
}
static void test_task1_fail_not_gregorian(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1291-08-01 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-14 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1583-10-14 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_fail_month_out_of_range(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-13-13 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-00-13 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-12-13 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_fail_day_out_of_range(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2019-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_fail_leap_year(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1900-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1900-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2000-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2000-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2001-02-29 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2001-02-28 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2004-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2004-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
}
static void test_task1_valid_date(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-01 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-29 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-03-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-04-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-05-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-06-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-07-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-08-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-09-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-10-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-11-30 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-12-31 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-01-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-02-30 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-03-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-04-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-05-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-06-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-07-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-08-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-09-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-10-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-11-31 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 2020-12-32 >" OUTFILE " 2>" ERRFILE)), FAIL);
}
static void test_task2_start_gregorian(void)
{
// arrange & act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1581-10-14 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1581-10-15 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-14 >" OUTFILE " 2>" ERRFILE)), FAIL);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-15 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1583-10-14 >" OUTFILE " 2>" ERRFILE)), OK);
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1583-10-15 >" OUTFILE " 2>" ERRFILE)), OK);
const char *out_txt[] = { "1582-10-15 is a Fri\n" };
CU_ASSERT_EQUAL(WEXITSTATUS(system(XSTR(TARGET) " 1582-10-15 >" OUTFILE " 2>" ERRFILE)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
}
static void test_task2_today(void)
{
// arrange
const size_t SIZE = 1000;
char command[SIZE];
struct tm t = now();
snprintf(command, SIZE, "%s %04d-%02d-%02d 2>%s | tail -1 >%s", XSTR(TARGET), t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, ERRFILE, OUTFILE);
char buffer[SIZE];
snprintf(buffer, SIZE, "%04d-%02d-%02d is a %s\n", t.tm_year + 1900, t.tm_mon + 1, t.tm_mday, weekday_name(t.tm_wday));
const char *out_txt[] = { buffer };
const char *err_txt[] = { NULL };
// act & assert
CU_ASSERT_EQUAL(WEXITSTATUS(system(command)), OK);
assert_lines(OUTFILE, out_txt, sizeof(out_txt)/sizeof(*out_txt));
assert_lines(ERRFILE, err_txt, sizeof(err_txt)/sizeof(*err_txt));
}
/**
* @brief Registers and runs the tests.
* @returns success (0) or one of the CU_ErrorCode (>0)
*/
int main(void)
{
// setup, run, teardown
TestMainBasic("lab test", setup, teardown
, test_task1_fail_no_arg
, test_task1_fail_not_gregorian
, test_task1_fail_month_out_of_range
, test_task1_fail_day_out_of_range
, test_task1_fail_leap_year
, test_task1_valid_date
, test_task2_start_gregorian
, test_task2_today
);
}

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@ -0,0 +1,474 @@
# 04 - Modularisieren von C Code
![](./modularisieren_von_c_code.JPG)
___
## 1. Übersicht
In diesem Praktikum üben Sie modulare Programmierung indem Sie ein
Java Programm (bestehend aus drei Java Files) in ein entsprechendes C
Programm aus drei Modulen (aus je einem Header- und Implementations-
File) übersetzen. Sie passen das Makefile so an, dass die
entsprechenden Module mit kompiliert werden.
In der zweiten Aufgabe erstellen Sie Makefile Regeln für die drei
Schritte von den C Source Files zur graphischen Darstellung der
Abhängigkeiten.
![](./uebersicht.png)
Im Anhang ist eine Übersicht über die verwendeten File Formate gegeben.
## 2. Lernziele
In diesem Praktikum lernen Sie die Handgriffe um ein Programm zu modularisieren, d.h. in mehrere Module aufzuteilen.
* Sie wissen, dass ein Modul aus einem C-File und einem passenden
H-File besteht.
* Sie können Header Files korrekt strukturieren.
* Sie deklarieren im Header-File die öffentlichen Typen und Funktionen
eines Moduls.
* Sie wissen wie **Include Guards** anzuwenden sind.
* Sie können Module im `Makefile` zur Kompilation hinzufügen.
* Sie können `Makefile` Regeln schreiben.
Die Bewertung dieses Praktikums ist am Ende angegeben.
Erweitern Sie die vorgegebenen Code Gerüste, welche im `git`
Repository `snp-lab-code` verfügbar sind.
## 3. Aufgabe 1: Modularisieren
Das zu ergänzende Programm dep2dot hat folgende Funktionalität:
Ergänzen Sie in **`modularize/src`** den Code in **`triangle.c`**,
**`read.h`**, **`read.c`**, **`rectang.h`** und **`rectang.c`** so
dass die Tests erfolgreich durchlaufen. Die C Implementation soll
dieselbe Funktionalität haben wie die gegebenen Java Files. Lehnen Sie
sich so nahe wie möglich an die Java Files an.
1. In den Header-Files implementieren Sie den Include-Guard und
deklarieren Sie die öffentlichen Funktionen und gegebenenfalls
**`#define`**.
2. In den Implementations-Files implementieren Sie die Funktionen.
Die drei Java Files liegen in **`modularize/java`**.
### Tipps
* Implementieren Sie die Symbole welche vollständig in Grossbuchstaben
geschrieben sind als **`#define`**.
* **`EOF`** kommt schon aus **`stdio.h`** und sollte deshalb nicht
mehr definiert werden.
* Jene **`#define`** welche von andern Modulen verwendet werden
kommen ins Header-File, die andern ins Implementations-File.
* Ein Grossteil des Java Codes aus den Methoden Bodies kann
eins-zu-eins in C übernommen werden. Listen Sie auf welche
Unterschiede es gibt:
<table>
<style>
table, th, td {
border: 1px solid black;
border-collapse: collapse;
}
table th:first-of-type {
width: 50%;
}
table th:nth-of-type(2) {
width: 50%;
}
</style>
<tr><th>Java</th><th>C</th></tr>
<tr><td>
```Java
byte
```
</td><td></td></tr>
<tr><td>
```Java
boolean
```
</td><td></td></tr>
<tr><td>
```Java
true
```
</td><td></td></tr>
<tr><td>
```Java
false
```
</td><td></td></tr>
<tr><td>
```Java
System.out.print(…)
```
</td><td></td></tr>
<tr><td>
```Java
System.out.println(…)
```
</td><td></td></tr>
<tr><td>
```Java
System.in.read()
```
</td><td></td></tr>
<tr><td>
```Java
byte[] buffer = new byte[BUFFERSIZE];
```
</td><td></td></tr>
<tr><td>
```Java
public class rectang {
public boolean Rectangular(…)
{ … }
}
```
</td><td></td></tr>
<tr><td>
```Java
public class read {
public int getInt(...)
throws java.io.IOException
{ ... }
}
```
</td><td></td></tr>
<tr><td>
```Java
class triangle {
public static void main(String[] args)
throws java.io.IOException
{ ... }
}
```
</td><td></td></tr>
<tr><td>
```Java
read ReadInt = new read();
...
word = ReadInt.getInt(MAX_NUMBER);
```
</td><td></td></tr>
<tr><td>
```Java
rectang Rect = new rectang();
...
if (Rect.Rectangular(a, b, c) == true) { ... }
```
</td><td></td></tr>
<tr><td>
```
System.out.println(
"-> Dreieck " + a + "-" + b + "-" + c
+ " ist rechtwinklig");
```
</td><td></td></tr>
</table>
## 4. Aufgabe 2: Makefile Regeln
Die folgenden drei Schritte erstellen von einem C Source File eine
graphische Darstellung der Abhängigkeiten:
1. `gcc ... -H .. file.c ... 2> file.dep` (Regeln im Makefile bereits vorhanden)
2. `dep2dot file.c <file.dep >file.dot` (in dieser Aufgabe zu erstellen)
3. `dot -Tpng file.dot >file.png` (in dieser Aufgabe zu erstellen)
Sie sollen für die Compiler-ähnlichen Programme `dep2dot` und `dot`
Makefile Regeln schreiben.
![](./uebersicht.png)
Das Programm `dep2dot` hat folgende Funktionalität:
1. Es liest von `stdin` die vom Compiler generierten
Abhängigkeits-Daten in Form des `dep` Formates ein.
2. Das erste und einzige Command Line Argument gibt das File an für
welches die von `stdin` gelesenen Abhängigkeiten gelten.
3. Auf `stdout` werden die Abhängigkeiten von `stdin` übersetzt als
`dot`-File Format ausgegeben.
Das Programm `dot` hat folgende Funktionalität:
1. Es liest die textuelle Beschreibung eines Graphen aus der
übergebenen Datei (erstes Argument) ein.
2. Auf `stdout` wird die grafische Darstellung der Beschreibung der
Eingabe-Datei im `png`-File Format ausgegeben.
Das `dep`-Format und das `dot`-Format sind im Anhang beschrieben.
Sie können die Funktionalität des Programms `dep2dot` kennen lernen,
indem Sie folgende Zeilen auf der Bash Shell ausführen. Das
`dep.input` File ist Teil der automatisierten Test Suite im
Verzeichnis `tests`:
```bash
bin/dep2dot dir/file <tests/dep.input >dep.dot
dot -Tpng dep.dot >dep.png
firefox dep.png
```
Als Resultat sollte Firefox folgende Graphik darstellen:
![](./dep_dot.png)
Definieren Sie im `Makefile` Regeln, welche die einzelnen Schritte von
den Source Files zu den `png` Files ausführen.
Prüfen Sie schliesslich die Umsetzung Aufgabe mittels `make dep-clean
dep && firefox src/*.png.`
### 4.1 Neue Regeln hinzufügen
Führen Sie im `Makefile` an den angegebenen Stellen folgende
Ergänzungen durch
* definieren Sie eine Variable `DEPFILES` deren Inhalt die Liste alle
Einträge der Variable `SOURCES` ist, wobei bei allen die Endung `.c`
durch die Endung `.c.png` ersetzt ist
* fügen Sie zum `Pseudo-Target .PHONEY` das Target `dep` dazu dies
besagt, dass das später folgenden Target `dep` nicht ein File
repräsentiert (ohne dieses Setting würde make gegebenenfalls nach
einem File mit Namen `dep` suchen um zu entscheiden ob es
inkrementell gebildet werden muss)
* schreiben Sie das Target `dep` gemäss der Beschreibung im Makefile
* schreiben Sie die Suffix Regel für die Übersetzung von `.png <-
.dot` gemäss Vorgabe im `Makefile` (als Inspiration, siehe auch die
`%.c.dep: %.c` Suffix Regel weiter unten im `Makefile`) erklären
Sie was die Regel macht
* schreiben Sie die Suffix Regel für die Übersetzung von` .dot <-
.dep` gemäss Vorgabe im `Makefile` erklären Sie was die Regel
macht
Die Umsetzung der obigen Änderungen sind erfolgreich, wenn Sie
folgende Shell Command Line erfolgreich ausführen können und in
Firefox die Abhängigkeiten der C-Files von den Include Files
dargestellt wird.
`make dep-clean dep && firefox src/*.png.`
### 4.2 Resultate analysieren und erklären
* Analysieren Sie die in der vorherigen Aufgabe erstellten grafischen Darstellungen.
* Erklären Sie was dargestellt wird und stellen Sie den Bezug zum zugehörigen C-Code her.
___
## 5. Bewertung
Die gegebenenfalls gestellten Theorieaufgaben und der funktionierende Programmcode müssen der Praktikumsbetreuung gezeigt werden. Die Lösungen müssen mündlich erklärt werden.
| Aufgabe | Kriterium | Punkte |
| :-- | :-- | :-- |
| 1 | Sie können das funktionierende Programm inklusive funktionierende Tests demonstrieren und erklären. | |
| 1 | Module einbinden, Header Files schreiben | 2 |
| 2 | Sie können das funktionierende Makefile demonstrieren und erklären. | |
| 2 | Neue Regeln hinzufügen | 2 |
___
## 6. Anhang
### 6.1 Verwendete zusätzliche Sprach Elemente
**Sprach Element**
```C
fprintf(stderr, "v=%d", v)
```
**Beschreibung**
Formatierte Ausgabe auf den Standard Error Stream. Siehe ***man 3
stderr*** und ***man 3 fprintf***.
### 6.2 Verarbeitung und verwendete File Formate <a name="file_formats"></a>
Das Programm in diesem Praktikum ist Teil für die graphische
Darstellung von `#include` File Abhängigkeit von C Files.
Den ersten Schritt für die Darstellung der `#include` File
Abhängigkeiten bietet der Compiler. Der Compiler kann mittels der `-H`
Command Line Option auf `stderr` ein Text File generieren, welches die
tatsächlich verwendeten Header Files auflistet. Zusätzlich wird im
Resultat die Verschachtelungstiefe der Includes angegeben.
Im zweiten Schritt übersetzt das Programm (`dep2dot`) dieses
Praktikums solche Dependency Files (`dep`) in eine Text Repräsentation
der Abhängigkeiten (`dot`) welche in graphische Darstel-lung (`png`)
übersetzt werden kann.
Als Tool zur Übersetzung der `dot` Files in das `png` Format dient das
`dot` Tool. Dieses Tool muss gegebenenfalls installiert werden:
```sudo apt install graphviz```
Die `png` Files können dann z.B. in der Programm Dokumentation
integriert werden (Darstellung zu Test Zwecken z.B. mittels `firefox
file.png`).
#### 6.2.1 dep File
Siehe: `man gcc`
```bash
-H Print the name of each header file used, in addition to other
normal activities. Each name is indented to show how deep in the
#include stack it is. [...]
```
Das File wird auf `stderr` ausgegeben.
**Beispiel File** (für Abhängigkeiten des `main.c` Files des `dep2dot` Programms)
```bash
. /usr/include/stdio.h
.. /usr/include/x86_64-linux-gnu/bits/libc-header-start.h
... /usr/include/features.h
.... /usr/include/x86_64-linux-gnu/sys/cdefs.h
..... /usr/include/x86_64-linux-gnu/bits/wordsize.h
..... /usr/include/x86_64-linux-gnu/bits/long-double.h
.... /usr/include/x86_64-linux-gnu/gnu/stubs.h
..... /usr/include/x86_64-linux-gnu/gnu/stubs-64.h
.. /usr/lib/gcc/x86_64-linux-gnu/7/include/stddef.h
.. /usr/include/x86_64-linux-gnu/bits/types.h
... /usr/include/x86_64-linux-gnu/bits/wordsize.h
... /usr/include/x86_64-linux-gnu/bits/typesizes.h
.. /usr/include/x86_64-linux-gnu/bits/types/__FILE.h
.. /usr/include/x86_64-linux-gnu/bits/types/FILE.h
.. /usr/include/x86_64-linux-gnu/bits/libio.h
... /usr/include/x86_64-linux-gnu/bits/_G_config.h
.... /usr/lib/gcc/x86_64-linux-gnu/7/include/stddef.h
.... /usr/include/x86_64-linux-gnu/bits/types/__mbstate_t.h
... /usr/lib/gcc/x86_64-linux-gnu/7/include/stdarg.h
.. /usr/include/x86_64-linux-gnu/bits/stdio_lim.h
.. /usr/include/x86_64-linux-gnu/bits/sys_errlist.h
. /usr/include/stdlib.h
.. /usr/include/x86_64-linux-gnu/bits/libc-header-start.h
.. /usr/lib/gcc/x86_64-linux-gnu/7/include/stddef.h
.. /usr/include/x86_64-linux-gnu/bits/floatn.h
... /usr/include/x86_64-linux-gnu/bits/floatn-common.h
.... /usr/include/x86_64-linux-gnu/bits/long-double.h
.. /usr/include/x86_64-linux-gnu/bits/stdlib-float.h
. src/error.h
.. /usr/lib/gcc/x86_64-linux-gnu/7/include/stddef.h
. src/data.h
.. /usr/lib/gcc/x86_64-linux-gnu/7/include/stddef.h
. src/output.h
Multiple include guards may be useful for:
/usr/include/x86_64-linux-gnu/bits/stdlib-float.h
/usr/include/x86_64-linux-gnu/bits/sys_errlist.h
/usr/include/x86_64-linux-gnu/bits/typesizes.h
/usr/include/x86_64-linux-gnu/gnu/stubs-64.h
/usr/include/x86_64-linux-gnu/gnu/stubs.h
```
#### 6.2.2 dot File
**Graphviz** ist ein mächtiges Tool-Set welches Graphen, definiert in
einem `dot`-Text File, automatisch anordnet und in `png`, `gif` und
andere Formate übersetzt.
Siehe die offizielle Web-Page
[https://www.graphviz.org/](https://www.graphviz.org/).
Es gibt als Teil dieses Tool-Sets verschiedene Übersetzer. Der hier
verwendete ist der Basis-übersetzer: `dot`.
Das `dot`-File Format kennt viele Möglichkeiten die Knoten und Kanten
eines Graphen und deren Anordnung anzugeben.
Der Vorteil eines solchen Tool-Sets ist, dass man den Inhalt (den
Graphen) einfach definieren kann und sich nicht um das komplexe
Problem der ansprechenden Visualisierung kümmern muss.
**Beispiel File** (`dot -Tpng sample.dot > sample.png`)
```C
digraph G {
node [shape=box]
A [label="a.c"];
B [label="a.h"];
C [label="b.h"];
subgraph cluster_c0 {
label="main"; color=black;
A;
}
subgraph cluster_c1 {
label="others"; style=filled; color=lightgrey;
{ B; C; rank=same; }
}
A -> B;
A -> C;
B -> C;
}
```
![](./bsp_dot.png)
#### 6.2.3 png File
Das `png` Format ist ein verlustfrei komprimiertes Raster Graphik
Format. Es wird oft in Web Pages verwendet.
___
Version: 22.02.2022

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/**
* @file
* @brief Provides output functions for various file formats.
*/
// define proper header file here, with include gaurd, etc.
// BEGIN-STUDENTS-TO-ADD-CODE
// END-STUDENTS-TO-ADD-CODE

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SNP_SHARED_MAKEFILE := $(if $(SNP_SHARED_MAKEFILE),$(SNP_SHARED_MAKEFILE),"~/snp/shared.mk")
TARGET := bin/boundinbox
SOURCES := src/main.c
TARGET := bin/triangle
SOURCES := src/triangle.c src/read.c src/rectang.c
TSTSOURCES := tests/tests.c
LIBS := -lm

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@ -0,0 +1,25 @@
SNP_SHARED_MAKEFILE := $(if $(SNP_SHARED_MAKEFILE),$(SNP_SHARED_MAKEFILE),"~/snp/shared.mk")
TARGET := bin/triangle
SOURCES := src/triangle.c src/read.c src/rectang.c
TSTSOURCES := tests/tests.c
LIBS := -lm
include $(SNP_SHARED_MAKEFILE)
all: modul
modul: triangle.o read.o rectang.o
gcc -o modul src/triangle.o src/read.o src/rectang.o
clean:
rm -f *.o modul
triangle.o: src/triangle.c Makefile
gcc -c src/triangle.c
read.o: src/read.c src/read.h Makefile
gcc -c src/read.c
rectang.o: src/rectang.c src/rectang.h Makefile
gcc -c src/rectang.c

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/*****************************************************************************
M. Thaler, Jan. 2000
Datei read.java
Funktion: Unsigned int Zahl via Bytestream von stdin einlesen.
Es wird zuerst eine Zeile eingelesen und dann konvertiert.
Die eingelesene Zeile darf nur eine Zahl enthalten
(mit optionalen Leerzeichen vor/nach der Zahl).
Returns: Die konvertierte Zahl
oder -1 (PARSE_ERROR) wenn keine Zahl oder zu gross
oder -2 (READ_ERROR) wenn Fehler beim einlesen.
Korrekturen: - Maerz 2002: M. Thaler, H. Fierz, Mar. 2002
liest bis EOL oder EOF, korrekter Rueckgabewert
- Sept 2016: A. Gieriet
Refactored (sprechende Variablen-Namen,
MS Windows Support, 0 Wert erlaubt,
Leerzeichen Support,
"magic" Numbers durch Symbole ersetzt,
maxResult Parameter, etc.)
******************************************************************************/
public class read {
public int getInt(int maxResult)
throws java.io.IOException
{
// end of input
int EOF = -1; // end of file
int EOL = 10; // end of line
// abnormal return values
int PARSE_ERROR = -1;
int READ_ERROR = -2;
// ASCII Codes
int ASCII_SPACE = 32; // ' '
int ASCII_DIGIT_0 = 48; // '0'
int ASCII_DIGIT_9 = 57; // '9'
// conversion buffer
int NO_POS = -1;
int BUFFERSIZE = 10;
byte[] buffer = new byte[BUFFERSIZE];
int result = 0;
// read line: up to EOL or EOF (i.e. error while reading)
int bytes = 0;
int input = System.in.read();
while ((input != EOL) && (input != EOF)) { // read whole line
if (bytes < BUFFERSIZE) { // only buffer first n characters
buffer[bytes] = (byte)input;
bytes++;
} else {
result = PARSE_ERROR; // exceed buffer size, continue read line
}
input = System.in.read();
}
if (input == EOF) {
result = READ_ERROR;
}
// check for numbers: skip leading and trailing spaces
// (i.e. this includes all control chars below the space ASCII code)
int pos = 0;
while((pos < bytes) && (buffer[pos] <= ASCII_SPACE)) pos++; // skip SP
int posOfFirstDigit = pos;
int posOfLastDigit = NO_POS;
while ((pos < bytes)
&& (buffer[pos] >= ASCII_DIGIT_0)
&& (buffer[pos] <= ASCII_DIGIT_9))
{
posOfLastDigit = pos;
pos++;
}
while((pos < bytes) && (buffer[pos] <= ASCII_SPACE)) pos++; // skip SP
// produce return value
if (result != 0) {
// previously detected read or parse error given
} else if ((pos != bytes) || (posOfLastDigit == NO_POS)) {
result = PARSE_ERROR;
} else { // convert number
for(int i = posOfFirstDigit; i <= posOfLastDigit; i++) {
result = result * 10 + (buffer[i] - ASCII_DIGIT_0);
if (result > maxResult) {
result = PARSE_ERROR;
break;
}
}
}
return result;
}
}

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