Thanks for using Compiler Explorer
Sponsors
Jakt
C++
Ada
Analysis
Android Java
Android Kotlin
Assembly
C
C3
Carbon
C++ (Circle)
CIRCT
Clean
CMake
CMakeScript
COBOL
C++ for OpenCL
MLIR
Cppx
Cppx-Blue
Cppx-Gold
Cpp2-cppfront
Crystal
C#
CUDA C++
D
Dart
Elixir
Erlang
Fortran
F#
Go
Haskell
HLSL
Hook
Hylo
ispc
Java
Julia
Kotlin
LLVM IR
LLVM MIR
Modula-2
Nim
Objective-C
Objective-C++
OCaml
OpenCL C
Pascal
Pony
Python
Racket
Ruby
Rust
Snowball
Scala
Solidity
Spice
Swift
LLVM TableGen
Toit
TypeScript Native
V
Vala
Visual Basic
Zig
Javascript
GIMPLE
c++ source #1
Output
Compile to binary object
Link to binary
Execute the code
Intel asm syntax
Demangle identifiers
Verbose demangling
Filters
Unused labels
Library functions
Directives
Comments
Horizontal whitespace
Debug intrinsics
Compiler
6502-c++ 11.1.0
ARM GCC 10.2.0
ARM GCC 10.3.0
ARM GCC 10.4.0
ARM GCC 10.5.0
ARM GCC 11.1.0
ARM GCC 11.2.0
ARM GCC 11.3.0
ARM GCC 11.4.0
ARM GCC 12.1.0
ARM GCC 12.2.0
ARM GCC 12.3.0
ARM GCC 13.1.0
ARM GCC 13.2.0
ARM GCC 13.2.0 (unknown-eabi)
ARM GCC 4.5.4
ARM GCC 4.6.4
ARM GCC 5.4
ARM GCC 6.3.0
ARM GCC 6.4.0
ARM GCC 7.3.0
ARM GCC 7.5.0
ARM GCC 8.2.0
ARM GCC 8.5.0
ARM GCC 9.3.0
ARM GCC 9.4.0
ARM GCC 9.5.0
ARM GCC trunk
ARM gcc 10.2.1 (none)
ARM gcc 10.3.1 (2021.07 none)
ARM gcc 10.3.1 (2021.10 none)
ARM gcc 11.2.1 (none)
ARM gcc 5.4.1 (none)
ARM gcc 7.2.1 (none)
ARM gcc 8.2 (WinCE)
ARM gcc 8.3.1 (none)
ARM gcc 9.2.1 (none)
ARM msvc v19.0 (WINE)
ARM msvc v19.10 (WINE)
ARM msvc v19.14 (WINE)
ARM64 Morello gcc 10.1 Alpha 2
ARM64 gcc 10.2
ARM64 gcc 10.3
ARM64 gcc 10.4
ARM64 gcc 10.5.0
ARM64 gcc 11.1
ARM64 gcc 11.2
ARM64 gcc 11.3
ARM64 gcc 11.4.0
ARM64 gcc 12.1
ARM64 gcc 12.2.0
ARM64 gcc 12.3.0
ARM64 gcc 13.1.0
ARM64 gcc 13.2.0
ARM64 gcc 5.4
ARM64 gcc 6.3
ARM64 gcc 6.4
ARM64 gcc 7.3
ARM64 gcc 7.5
ARM64 gcc 8.2
ARM64 gcc 8.5
ARM64 gcc 9.3
ARM64 gcc 9.4
ARM64 gcc 9.5
ARM64 gcc trunk
ARM64 msvc v19.14 (WINE)
AVR gcc 10.3.0
AVR gcc 11.1.0
AVR gcc 12.1.0
AVR gcc 12.2.0
AVR gcc 12.3.0
AVR gcc 13.1.0
AVR gcc 13.2.0
AVR gcc 4.5.4
AVR gcc 4.6.4
AVR gcc 5.4.0
AVR gcc 9.2.0
AVR gcc 9.3.0
Arduino Mega (1.8.9)
Arduino Uno (1.8.9)
BPF clang (trunk)
BPF clang 13.0.0
BPF clang 14.0.0
BPF clang 15.0.0
BPF clang 16.0.0
BPF clang 17.0.1
BPF clang 18.1.0
BPF gcc 13.1.0
BPF gcc 13.2.0
BPF gcc trunk
EDG (experimental reflection)
EDG 6.5
EDG 6.5 (GNU mode gcc 13)
EDG 6.6
EDG 6.6 (GNU mode gcc 13)
FRC 2019
FRC 2020
FRC 2023
KVX ACB 4.1.0 (GCC 7.5.0)
KVX ACB 4.1.0-cd1 (GCC 7.5.0)
KVX ACB 4.10.0 (GCC 10.3.1)
KVX ACB 4.11.1 (GCC 10.3.1)
KVX ACB 4.12.0 (GCC 11.3.0)
KVX ACB 4.2.0 (GCC 7.5.0)
KVX ACB 4.3.0 (GCC 7.5.0)
KVX ACB 4.4.0 (GCC 7.5.0)
KVX ACB 4.6.0 (GCC 9.4.1)
KVX ACB 4.8.0 (GCC 9.4.1)
KVX ACB 4.9.0 (GCC 9.4.1)
M68K gcc 13.1.0
M68K gcc 13.2.0
M68k clang (trunk)
MRISC32 gcc (trunk)
MSP430 gcc 4.5.3
MSP430 gcc 5.3.0
MSP430 gcc 6.2.1
MinGW clang 14.0.3
MinGW clang 14.0.6
MinGW clang 15.0.7
MinGW clang 16.0.0
MinGW clang 16.0.2
MinGW gcc 11.3.0
MinGW gcc 12.1.0
MinGW gcc 12.2.0
MinGW gcc 13.1.0
RISC-V (32-bits) gcc (trunk)
RISC-V (32-bits) gcc 10.2.0
RISC-V (32-bits) gcc 10.3.0
RISC-V (32-bits) gcc 11.2.0
RISC-V (32-bits) gcc 11.3.0
RISC-V (32-bits) gcc 11.4.0
RISC-V (32-bits) gcc 12.1.0
RISC-V (32-bits) gcc 12.2.0
RISC-V (32-bits) gcc 12.3.0
RISC-V (32-bits) gcc 13.1.0
RISC-V (32-bits) gcc 13.2.0
RISC-V (32-bits) gcc 8.2.0
RISC-V (32-bits) gcc 8.5.0
RISC-V (32-bits) gcc 9.4.0
RISC-V (64-bits) gcc (trunk)
RISC-V (64-bits) gcc 10.2.0
RISC-V (64-bits) gcc 10.3.0
RISC-V (64-bits) gcc 11.2.0
RISC-V (64-bits) gcc 11.3.0
RISC-V (64-bits) gcc 11.4.0
RISC-V (64-bits) gcc 12.1.0
RISC-V (64-bits) gcc 12.2.0
RISC-V (64-bits) gcc 12.3.0
RISC-V (64-bits) gcc 13.1.0
RISC-V (64-bits) gcc 13.2.0
RISC-V (64-bits) gcc 8.2.0
RISC-V (64-bits) gcc 8.5.0
RISC-V (64-bits) gcc 9.4.0
RISC-V rv32gc clang (trunk)
RISC-V rv32gc clang 10.0.0
RISC-V rv32gc clang 10.0.1
RISC-V rv32gc clang 11.0.0
RISC-V rv32gc clang 11.0.1
RISC-V rv32gc clang 12.0.0
RISC-V rv32gc clang 12.0.1
RISC-V rv32gc clang 13.0.0
RISC-V rv32gc clang 13.0.1
RISC-V rv32gc clang 14.0.0
RISC-V rv32gc clang 15.0.0
RISC-V rv32gc clang 16.0.0
RISC-V rv32gc clang 17.0.1
RISC-V rv32gc clang 18.1.0
RISC-V rv32gc clang 9.0.0
RISC-V rv32gc clang 9.0.1
RISC-V rv64gc clang (trunk)
RISC-V rv64gc clang 10.0.0
RISC-V rv64gc clang 10.0.1
RISC-V rv64gc clang 11.0.0
RISC-V rv64gc clang 11.0.1
RISC-V rv64gc clang 12.0.0
RISC-V rv64gc clang 12.0.1
RISC-V rv64gc clang 13.0.0
RISC-V rv64gc clang 13.0.1
RISC-V rv64gc clang 14.0.0
RISC-V rv64gc clang 15.0.0
RISC-V rv64gc clang 16.0.0
RISC-V rv64gc clang 17.0.1
RISC-V rv64gc clang 18.1.0
RISC-V rv64gc clang 9.0.0
RISC-V rv64gc clang 9.0.1
Raspbian Buster
Raspbian Stretch
SPARC LEON gcc 12.2.0
SPARC LEON gcc 12.3.0
SPARC LEON gcc 13.1.0
SPARC LEON gcc 13.2.0
SPARC gcc 12.2.0
SPARC gcc 12.3.0
SPARC gcc 13.1.0
SPARC gcc 13.2.0
SPARC64 gcc 12.2.0
SPARC64 gcc 12.3.0
SPARC64 gcc 13.1.0
SPARC64 gcc 13.2.0
TI C6x gcc 12.2.0
TI C6x gcc 12.3.0
TI C6x gcc 13.1.0
TI C6x gcc 13.2.0
TI CL430 21.6.1
VAX gcc NetBSDELF 10.4.0
VAX gcc NetBSDELF 10.5.0 (Nov 15 03:50:22 2023)
WebAssembly clang (trunk)
Xtensa ESP32 gcc 11.2.0 (2022r1)
Xtensa ESP32 gcc 12.2.0 (20230208)
Xtensa ESP32 gcc 8.2.0 (2019r2)
Xtensa ESP32 gcc 8.2.0 (2020r1)
Xtensa ESP32 gcc 8.2.0 (2020r2)
Xtensa ESP32 gcc 8.4.0 (2020r3)
Xtensa ESP32 gcc 8.4.0 (2021r1)
Xtensa ESP32 gcc 8.4.0 (2021r2)
Xtensa ESP32-S2 gcc 11.2.0 (2022r1)
Xtensa ESP32-S2 gcc 12.2.0 (20230208)
Xtensa ESP32-S2 gcc 8.2.0 (2019r2)
Xtensa ESP32-S2 gcc 8.2.0 (2020r1)
Xtensa ESP32-S2 gcc 8.2.0 (2020r2)
Xtensa ESP32-S2 gcc 8.4.0 (2020r3)
Xtensa ESP32-S2 gcc 8.4.0 (2021r1)
Xtensa ESP32-S2 gcc 8.4.0 (2021r2)
Xtensa ESP32-S3 gcc 11.2.0 (2022r1)
Xtensa ESP32-S3 gcc 12.2.0 (20230208)
Xtensa ESP32-S3 gcc 8.4.0 (2020r3)
Xtensa ESP32-S3 gcc 8.4.0 (2021r1)
Xtensa ESP32-S3 gcc 8.4.0 (2021r2)
arm64 msvc v19.28 VS16.9
arm64 msvc v19.29 VS16.10
arm64 msvc v19.29 VS16.11
arm64 msvc v19.30
arm64 msvc v19.31
arm64 msvc v19.32
arm64 msvc v19.33
arm64 msvc v19.34
arm64 msvc v19.35
arm64 msvc v19.36
arm64 msvc v19.37
arm64 msvc v19.38
arm64 msvc v19.latest
armv7-a clang (trunk)
armv7-a clang 10.0.0
armv7-a clang 10.0.1
armv7-a clang 11.0.0
armv7-a clang 11.0.1
armv7-a clang 9.0.0
armv7-a clang 9.0.1
armv8-a clang (all architectural features, trunk)
armv8-a clang (trunk)
armv8-a clang 10.0.0
armv8-a clang 10.0.1
armv8-a clang 11.0.0
armv8-a clang 11.0.1
armv8-a clang 12.0.0
armv8-a clang 13.0.0
armv8-a clang 14.0.0
armv8-a clang 15.0.0
armv8-a clang 16.0.0
armv8-a clang 17.0.1
armv8-a clang 18.1.0
armv8-a clang 9.0.0
armv8-a clang 9.0.1
ellcc 0.1.33
ellcc 0.1.34
ellcc 2017-07-16
hexagon-clang 16.0.5
llvm-mos atari2600-3e
llvm-mos atari2600-4k
llvm-mos atari2600-common
llvm-mos atari5200-supercart
llvm-mos atari8-cart-megacart
llvm-mos atari8-cart-std
llvm-mos atari8-cart-xegs
llvm-mos atari8-common
llvm-mos atari8-dos
llvm-mos c128
llvm-mos c64
llvm-mos commodore
llvm-mos cpm65
llvm-mos cx16
llvm-mos dodo
llvm-mos eater
llvm-mos mega65
llvm-mos nes
llvm-mos nes-action53
llvm-mos nes-cnrom
llvm-mos nes-gtrom
llvm-mos nes-mmc1
llvm-mos nes-mmc3
llvm-mos nes-nrom
llvm-mos nes-unrom
llvm-mos nes-unrom-512
llvm-mos osi-c1p
llvm-mos pce
llvm-mos pce-cd
llvm-mos pce-common
llvm-mos pet
llvm-mos rp6502
llvm-mos rpc8e
llvm-mos supervision
llvm-mos vic20
loongarch64 gcc 12.2.0
loongarch64 gcc 12.3.0
loongarch64 gcc 13.1.0
loongarch64 gcc 13.2.0
mips clang 13.0.0
mips clang 14.0.0
mips clang 15.0.0
mips clang 16.0.0
mips clang 17.0.1
mips clang 18.1.0
mips gcc 11.2.0
mips gcc 12.1.0
mips gcc 12.2.0
mips gcc 12.3.0
mips gcc 13.1.0
mips gcc 13.2.0
mips gcc 4.9.4
mips gcc 5.4
mips gcc 5.5.0
mips gcc 9.3.0 (codescape)
mips gcc 9.5.0
mips64 (el) gcc 12.1.0
mips64 (el) gcc 12.2.0
mips64 (el) gcc 12.3.0
mips64 (el) gcc 13.1.0
mips64 (el) gcc 13.2.0
mips64 (el) gcc 4.9.4
mips64 (el) gcc 5.4.0
mips64 (el) gcc 5.5.0
mips64 (el) gcc 9.5.0
mips64 clang 13.0.0
mips64 clang 14.0.0
mips64 clang 15.0.0
mips64 clang 16.0.0
mips64 clang 17.0.1
mips64 clang 18.1.0
mips64 gcc 11.2.0
mips64 gcc 12.1.0
mips64 gcc 12.2.0
mips64 gcc 12.3.0
mips64 gcc 13.1.0
mips64 gcc 13.2.0
mips64 gcc 4.9.4
mips64 gcc 5.4.0
mips64 gcc 5.5.0
mips64 gcc 9.5.0
mips64el clang 13.0.0
mips64el clang 14.0.0
mips64el clang 15.0.0
mips64el clang 16.0.0
mips64el clang 17.0.1
mips64el clang 18.1.0
mipsel clang 13.0.0
mipsel clang 14.0.0
mipsel clang 15.0.0
mipsel clang 16.0.0
mipsel clang 17.0.1
mipsel clang 18.1.0
mipsel gcc 12.1.0
mipsel gcc 12.2.0
mipsel gcc 12.3.0
mipsel gcc 13.1.0
mipsel gcc 13.2.0
mipsel gcc 4.9.4
mipsel gcc 5.4.0
mipsel gcc 5.5.0
mipsel gcc 9.5.0
nanoMIPS gcc 6.3.0 (mtk)
power gcc 11.2.0
power gcc 12.1.0
power gcc 12.2.0
power gcc 12.3.0
power gcc 13.1.0
power gcc 13.2.0
power gcc 4.8.5
power64 AT12.0 (gcc8)
power64 AT13.0 (gcc9)
power64 gcc 11.2.0
power64 gcc 12.1.0
power64 gcc 12.2.0
power64 gcc 12.3.0
power64 gcc 13.1.0
power64 gcc 13.2.0
power64 gcc trunk
power64le AT12.0 (gcc8)
power64le AT13.0 (gcc9)
power64le clang (trunk)
power64le gcc 11.2.0
power64le gcc 12.1.0
power64le gcc 12.2.0
power64le gcc 12.3.0
power64le gcc 13.1.0
power64le gcc 13.2.0
power64le gcc 6.3.0
power64le gcc trunk
powerpc64 clang (trunk)
s390x gcc 11.2.0
s390x gcc 12.1.0
s390x gcc 12.2.0
s390x gcc 12.3.0
s390x gcc 13.1.0
s390x gcc 13.2.0
sh gcc 12.2.0
sh gcc 12.3.0
sh gcc 13.1.0
sh gcc 13.2.0
sh gcc 4.9.4
sh gcc 9.5.0
vast (trunk)
x64 msvc v19.0 (WINE)
x64 msvc v19.10 (WINE)
x64 msvc v19.14
x64 msvc v19.14 (WINE)
x64 msvc v19.15
x64 msvc v19.16
x64 msvc v19.20
x64 msvc v19.21
x64 msvc v19.22
x64 msvc v19.23
x64 msvc v19.24
x64 msvc v19.25
x64 msvc v19.26
x64 msvc v19.27
x64 msvc v19.28
x64 msvc v19.28 VS16.9
x64 msvc v19.29 VS16.10
x64 msvc v19.29 VS16.11
x64 msvc v19.30
x64 msvc v19.31
x64 msvc v19.32
x64 msvc v19.33
x64 msvc v19.34
x64 msvc v19.35
x64 msvc v19.36
x64 msvc v19.37
x64 msvc v19.38
x64 msvc v19.latest
x86 djgpp 4.9.4
x86 djgpp 5.5.0
x86 djgpp 6.4.0
x86 djgpp 7.2.0
x86 msvc v19.0 (WINE)
x86 msvc v19.10 (WINE)
x86 msvc v19.14
x86 msvc v19.14 (WINE)
x86 msvc v19.15
x86 msvc v19.16
x86 msvc v19.20
x86 msvc v19.21
x86 msvc v19.22
x86 msvc v19.23
x86 msvc v19.24
x86 msvc v19.25
x86 msvc v19.26
x86 msvc v19.27
x86 msvc v19.28
x86 msvc v19.28 VS16.9
x86 msvc v19.29 VS16.10
x86 msvc v19.29 VS16.11
x86 msvc v19.30
x86 msvc v19.31
x86 msvc v19.32
x86 msvc v19.33
x86 msvc v19.34
x86 msvc v19.35
x86 msvc v19.36
x86 msvc v19.37
x86 msvc v19.38
x86 msvc v19.latest
x86 nvc++ 22.11
x86 nvc++ 22.7
x86 nvc++ 22.9
x86 nvc++ 23.1
x86 nvc++ 23.11
x86 nvc++ 23.3
x86 nvc++ 23.5
x86 nvc++ 23.7
x86 nvc++ 23.9
x86 nvc++ 24.1
x86 nvc++ 24.3
x86-64 Zapcc 190308
x86-64 clang (amd-stg-open)
x86-64 clang (assertions trunk)
x86-64 clang (clangir)
x86-64 clang (experimental -Wlifetime)
x86-64 clang (experimental P1061)
x86-64 clang (experimental P1144)
x86-64 clang (experimental P1221)
x86-64 clang (experimental P2996)
x86-64 clang (experimental metaprogramming - P2632)
x86-64 clang (experimental pattern matching)
x86-64 clang (old concepts branch)
x86-64 clang (reflection)
x86-64 clang (resugar)
x86-64 clang (thephd.dev)
x86-64 clang (trunk)
x86-64 clang (variadic friends - P2893)
x86-64 clang (widberg)
x86-64 clang 10.0.0
x86-64 clang 10.0.0 (assertions)
x86-64 clang 10.0.1
x86-64 clang 11.0.0
x86-64 clang 11.0.0 (assertions)
x86-64 clang 11.0.1
x86-64 clang 12.0.0
x86-64 clang 12.0.0 (assertions)
x86-64 clang 12.0.1
x86-64 clang 13.0.0
x86-64 clang 13.0.0 (assertions)
x86-64 clang 13.0.1
x86-64 clang 14.0.0
x86-64 clang 14.0.0 (assertions)
x86-64 clang 15.0.0
x86-64 clang 15.0.0 (assertions)
x86-64 clang 16.0.0
x86-64 clang 16.0.0 (assertions)
x86-64 clang 17.0.1
x86-64 clang 17.0.1 (assertions)
x86-64 clang 18.1.0
x86-64 clang 18.1.0 (assertions)
x86-64 clang 2.6.0 (assertions)
x86-64 clang 2.7.0 (assertions)
x86-64 clang 2.8.0 (assertions)
x86-64 clang 2.9.0 (assertions)
x86-64 clang 3.0.0
x86-64 clang 3.0.0 (assertions)
x86-64 clang 3.1
x86-64 clang 3.1 (assertions)
x86-64 clang 3.2
x86-64 clang 3.2 (assertions)
x86-64 clang 3.3
x86-64 clang 3.3 (assertions)
x86-64 clang 3.4 (assertions)
x86-64 clang 3.4.1
x86-64 clang 3.5
x86-64 clang 3.5 (assertions)
x86-64 clang 3.5.1
x86-64 clang 3.5.2
x86-64 clang 3.6
x86-64 clang 3.6 (assertions)
x86-64 clang 3.7
x86-64 clang 3.7 (assertions)
x86-64 clang 3.7.1
x86-64 clang 3.8
x86-64 clang 3.8 (assertions)
x86-64 clang 3.8.1
x86-64 clang 3.9.0
x86-64 clang 3.9.0 (assertions)
x86-64 clang 3.9.1
x86-64 clang 4.0.0
x86-64 clang 4.0.0 (assertions)
x86-64 clang 4.0.1
x86-64 clang 5.0.0
x86-64 clang 5.0.0 (assertions)
x86-64 clang 5.0.1
x86-64 clang 5.0.2
x86-64 clang 6.0.0
x86-64 clang 6.0.0 (assertions)
x86-64 clang 6.0.1
x86-64 clang 7.0.0
x86-64 clang 7.0.0 (assertions)
x86-64 clang 7.0.1
x86-64 clang 7.1.0
x86-64 clang 8.0.0
x86-64 clang 8.0.0 (assertions)
x86-64 clang 8.0.1
x86-64 clang 9.0.0
x86-64 clang 9.0.0 (assertions)
x86-64 clang 9.0.1
x86-64 clang rocm-4.5.2
x86-64 clang rocm-5.0.2
x86-64 clang rocm-5.1.3
x86-64 clang rocm-5.2.3
x86-64 clang rocm-5.3.3
x86-64 clang rocm-5.7.0
x86-64 gcc (contract labels)
x86-64 gcc (contracts natural syntax)
x86-64 gcc (contracts)
x86-64 gcc (coroutines)
x86-64 gcc (modules)
x86-64 gcc (trunk)
x86-64 gcc 10.1
x86-64 gcc 10.2
x86-64 gcc 10.3
x86-64 gcc 10.4
x86-64 gcc 10.5
x86-64 gcc 11.1
x86-64 gcc 11.2
x86-64 gcc 11.3
x86-64 gcc 11.4
x86-64 gcc 12.1
x86-64 gcc 12.2
x86-64 gcc 12.3
x86-64 gcc 13.1
x86-64 gcc 13.2
x86-64 gcc 4.1.2
x86-64 gcc 4.4.7
x86-64 gcc 4.5.3
x86-64 gcc 4.6.4
x86-64 gcc 4.7.1
x86-64 gcc 4.7.2
x86-64 gcc 4.7.3
x86-64 gcc 4.7.4
x86-64 gcc 4.8.1
x86-64 gcc 4.8.2
x86-64 gcc 4.8.3
x86-64 gcc 4.8.4
x86-64 gcc 4.8.5
x86-64 gcc 4.9.0
x86-64 gcc 4.9.1
x86-64 gcc 4.9.2
x86-64 gcc 4.9.3
x86-64 gcc 4.9.4
x86-64 gcc 5.1
x86-64 gcc 5.2
x86-64 gcc 5.3
x86-64 gcc 5.4
x86-64 gcc 5.5
x86-64 gcc 6.1
x86-64 gcc 6.2
x86-64 gcc 6.3
x86-64 gcc 6.4
x86-64 gcc 7.1
x86-64 gcc 7.2
x86-64 gcc 7.3
x86-64 gcc 7.4
x86-64 gcc 7.5
x86-64 gcc 8.1
x86-64 gcc 8.2
x86-64 gcc 8.3
x86-64 gcc 8.4
x86-64 gcc 8.5
x86-64 gcc 9.1
x86-64 gcc 9.2
x86-64 gcc 9.3
x86-64 gcc 9.4
x86-64 gcc 9.5
x86-64 icc 13.0.1
x86-64 icc 16.0.3
x86-64 icc 17.0.0
x86-64 icc 18.0.0
x86-64 icc 19.0.0
x86-64 icc 19.0.1
x86-64 icc 2021.1.2
x86-64 icc 2021.10.0
x86-64 icc 2021.2.0
x86-64 icc 2021.3.0
x86-64 icc 2021.4.0
x86-64 icc 2021.5.0
x86-64 icc 2021.6.0
x86-64 icc 2021.7.0
x86-64 icc 2021.7.1
x86-64 icc 2021.8.0
x86-64 icc 2021.9.0
x86-64 icx (latest)
x86-64 icx 2021.1.2
x86-64 icx 2021.2.0
x86-64 icx 2021.3.0
x86-64 icx 2021.4.0
x86-64 icx 2022.0.0
x86-64 icx 2022.1.0
x86-64 icx 2022.2.0
x86-64 icx 2022.2.1
x86-64 icx 2023.0.0
x86-64 icx 2023.1.0
x86-64 icx 2023.2.1
x86-64 icx 2024.0.0
zig c++ 0.10.0
zig c++ 0.11.0
zig c++ 0.12.0
zig c++ 0.6.0
zig c++ 0.7.0
zig c++ 0.7.1
zig c++ 0.8.0
zig c++ 0.9.0
zig c++ trunk
Options
Source code
#include <iostream> class NotGate; class AndGate; class NandGate; class NandGateThree; class DataFlipFlop; class MultiplexerTwoToOne; class MultiplexerFourToOne; class OrGate; class XorGate; class HalfAdder; class FullAdder; class ElectricSchema { public: NotGate* m_NotGate; AndGate* m_AndGate; NandGate* m_NandGate; NandGateThree* m_NandGateThree; DataFlipFlop* m_DataFlipFlop; // 32 bit register DataFlipFlop* m_ShiftRegister32[32]; MultiplexerTwoToOne* m_MultiplexerTwoToOne; MultiplexerFourToOne* m_MultiplexerFourToOne; OrGate* m_OrGate; XorGate* m_XorGate; HalfAdder* m_HalfAdder; FullAdder* m_FullAdder; // 512 bit adder FullAdder* m_BusAdder512[512]; private: bool m_voltageRail; public: ElectricSchema() : m_voltageRail(false) {} ElectricSchema(bool voltage) : m_voltageRail(voltage) {}; ~ElectricSchema() {} const bool& getVoltageRail() const { return m_voltageRail; } }; static ElectricSchema schema(true); class Transistor { private: bool m_collecterPinIn; bool m_basePinIn; bool m_emitterPinOut; public: Transistor() : m_collecterPinIn(schema.getVoltageRail()), m_basePinIn(false), m_emitterPinOut(false){} Transistor(bool collecter, bool base, bool emitter) : m_collecterPinIn(schema.getVoltageRail()), m_basePinIn(base), m_emitterPinOut(emitter) { if(collecter == false) { m_emitterPinOut = false; } else if(base == true) { m_emitterPinOut = true; } else { m_emitterPinOut = false; } } ~Transistor(){} const bool& getCollecterPinIn() const { return m_collecterPinIn; } const bool& getBasePinIn() const { return m_basePinIn; } const bool& getEmitterPinOut() { updateInternalStates(); return m_emitterPinOut; } bool& setCollecterPinIn() { return m_collecterPinIn; } bool& setBasePinIn() { return m_basePinIn; } private: void updateInternalStates() { if(m_collecterPinIn == false) { m_emitterPinOut = false; } else if(m_basePinIn == true) { m_emitterPinOut = true; } else { m_emitterPinOut = false; } } }; class NotGate { private: Transistor m_Transistor; public: NotGate() : m_Transistor() {} NotGate(bool pinIn, bool pinOut) : m_Transistor() { m_Transistor.setCollecterPinIn() = schema.getVoltageRail(); if(pinIn) m_Transistor.setBasePinIn() = false; else m_Transistor.setBasePinIn() = true; } const bool& getPinIn() const { return m_Transistor.getBasePinIn(); } const bool& getPinOut() { updateInternalStates(); return m_Transistor.getEmitterPinOut(); } bool& setPinIn() { return m_Transistor.setBasePinIn(); } private: void updateInternalStates() { m_Transistor.setCollecterPinIn() = schema.getVoltageRail(); if(m_Transistor.getBasePinIn()) m_Transistor.setBasePinIn() = false; else m_Transistor.setBasePinIn() = true; } }; class AndGate { private: Transistor m_TransistorOne; Transistor m_TransistorTwo; bool m_PinInOne; bool m_PinInTwo; bool m_PinOut; public: AndGate() : m_TransistorOne(), m_TransistorTwo(), m_PinInOne(false), m_PinInTwo(false), m_PinOut(false){} AndGate(bool pinInOne, bool pinInTwo, bool pinOut) : m_TransistorOne(), m_TransistorTwo(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinOut(pinOut) { m_TransistorOne.setCollecterPinIn() = schema.getVoltageRail(); m_TransistorOne.setBasePinIn() = pinInOne; m_TransistorTwo.setBasePinIn() = pinInTwo; m_TransistorTwo.setCollecterPinIn() = m_TransistorOne.getEmitterPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } private: void updateInternalStates() { m_TransistorOne.setCollecterPinIn() = schema.getVoltageRail(); m_TransistorOne.setBasePinIn() = m_PinInOne; m_TransistorTwo.setBasePinIn() = m_PinInTwo; m_TransistorTwo.setCollecterPinIn() = m_TransistorOne.getEmitterPinOut(); m_PinOut = m_TransistorTwo.getEmitterPinOut(); } }; class NandGate { private: AndGate m_AndGate; NotGate m_NotGate; bool m_PinInOne; bool m_PinInTwo; bool m_PinOut; public: NandGate() : m_AndGate(), m_NotGate(), m_PinInOne(false), m_PinInTwo(false), m_PinOut(false){} NandGate(bool pinInOne, bool pinInTwo, bool pinOut) : m_AndGate(), m_NotGate(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinOut(pinOut) { m_AndGate.setPinInOne() = pinInOne; m_AndGate.setPinInTwo() = pinInTwo; m_NotGate.setPinIn() = m_AndGate.getPinOut(); m_PinOut = m_NotGate.getPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } private: void updateInternalStates() { m_AndGate.setPinInOne() = m_PinInOne; m_AndGate.setPinInTwo() = m_PinInTwo; m_NotGate.setPinIn() = m_AndGate.getPinOut(); m_PinOut = m_NotGate.getPinOut(); } }; class NandGateThree { private: NandGate m_NandGateOne; NandGate m_NandGateTwo; NandGate m_NandGateThree; bool m_PinInOne; bool m_PinInTwo; bool m_PinInThree; bool m_PinOut; public: NandGateThree() : m_NandGateOne(), m_NandGateTwo(), m_NandGateThree(), m_PinInOne(false), m_PinInTwo(false), m_PinInThree(false), m_PinOut(false){} NandGateThree(bool pinInOne, bool pinInTwo, bool pinInThree, bool pinOut) : m_NandGateOne(), m_NandGateTwo(), m_NandGateThree(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinInThree(pinInThree), m_PinOut(pinOut) { m_NandGateOne.setPinInOne() = pinInOne; m_NandGateOne.setPinInTwo() = pinInTwo; // Using here a NAND gate as a not gate (instead using NotGate) m_NandGateTwo.setPinInOne() = m_NandGateOne.getPinOut(); m_NandGateTwo.setPinInTwo() = m_NandGateOne.getPinOut(); m_NandGateThree.setPinInOne() = m_NandGateTwo.getPinOut(); m_NandGateThree.setPinInTwo() = pinInThree; } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinInThree() const { return m_PinInThree; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } bool& setPinInThree() { return m_PinInThree; } private: void updateInternalStates() { m_NandGateOne.setPinInOne() = m_PinInOne; m_NandGateOne.setPinInTwo() = m_PinInTwo; // Using here a NAND gate as a not gate (instead using NotGate) m_NandGateTwo.setPinInOne() = m_NandGateOne.getPinOut(); m_NandGateTwo.setPinInTwo() = m_NandGateOne.getPinOut(); m_NandGateThree.setPinInOne() = m_NandGateTwo.getPinOut(); m_NandGateThree.setPinInTwo() = m_PinInThree; m_PinOut = m_NandGateThree.getPinOut(); } }; class DataFlipFlop { private: NandGate m_NandGateOne; NandGate m_NandGateTwo; NandGate m_NandGateThree; NandGate m_NandGateFour; NandGate m_NandGateFive; bool m_PinInData; bool m_PinInClock; bool m_PinOutQ; bool m_PinOutQI; public: DataFlipFlop() : m_NandGateOne(), m_NandGateTwo(), m_NandGateThree(), m_NandGateFour(), m_NandGateFive(), m_PinInData(false), m_PinInClock(false), m_PinOutQ(false), m_PinOutQI(false){} DataFlipFlop(bool pinInData, bool pinInClock, bool pinOutQ, bool pinOutQI) : m_NandGateOne(), m_NandGateTwo(), m_NandGateThree(), m_NandGateFour(), m_NandGateFive(), m_PinInData(pinInData), m_PinInClock(pinInClock), m_PinOutQ(pinOutQ), m_PinOutQI(pinOutQI) { // Not gate for reset implementation for set switch m_NandGateOne.setPinInOne() = pinInData; m_NandGateOne.setPinInTwo() = pinInData; m_NandGateTwo.setPinInOne() = pinInData; m_NandGateTwo.setPinInTwo() = pinInClock; m_NandGateThree.setPinInOne() = pinInClock; m_NandGateThree.setPinInTwo() = m_NandGateOne.getPinOut(); m_NandGateFive.setPinInOne() = m_NandGateFour.getPinOut(); m_NandGateFive.setPinInTwo() = m_NandGateThree.getPinOut(); m_NandGateFour.setPinInOne() = m_NandGateTwo.getPinOut(); m_NandGateFour.setPinInTwo() = m_NandGateFive.getPinOut(); } const bool& getPinInData() const { return m_PinInData; } const bool& getPinInClock() const { return m_PinInClock; } const bool& getPinOutQ() { updateInternalStates(); return m_PinOutQ; } const bool& getPinOutQI() { updateInternalStates(); return m_PinOutQI; } bool& setPinInData() { return m_PinInData; } bool& setPinInClock() { return m_PinInClock; } private: void updateInternalStates() { // Not gate for reset implementation for set switch m_NandGateOne.setPinInOne() = m_PinInData; m_NandGateOne.setPinInTwo() = m_PinInData; m_NandGateTwo.setPinInOne() = m_PinInData; m_NandGateTwo.setPinInTwo() = m_PinInClock; m_NandGateThree.setPinInOne() = m_PinInClock; m_NandGateThree.setPinInTwo() = m_NandGateOne.getPinOut(); m_NandGateFive.setPinInOne() = m_NandGateFour.getPinOut(); m_NandGateFive.setPinInTwo() = m_NandGateThree.getPinOut(); m_NandGateFour.setPinInOne() = m_NandGateTwo.getPinOut(); m_NandGateFour.setPinInTwo() = m_NandGateFive.getPinOut(); m_PinOutQ = m_NandGateFour.getPinOut(); m_PinOutQI = m_NandGateFive.getPinOut(); } }; class MultiplexerTwoToOne { private: NandGate m_NandGateOne; NandGate m_NandGateTwo; NandGate m_NandGateThree; NandGate m_NandGateFour; bool m_PinInOne; bool m_PinInTwo; bool m_PinInSelect; bool m_PinOut; public: MultiplexerTwoToOne() : m_NandGateOne(), m_NandGateTwo(), m_NandGateThree(), m_NandGateFour(), m_PinInOne(false), m_PinInTwo(false), m_PinInSelect(false), m_PinOut(false){} MultiplexerTwoToOne(bool pinInOne, bool pinInTwo, bool pinInSelect, bool pinOut) : m_NandGateOne(), m_NandGateTwo(), m_NandGateThree(), m_NandGateFour(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinInSelect(pinInSelect), m_PinOut(pinOut) { m_NandGateOne.setPinInOne() = pinInOne; m_NandGateOne.setPinInTwo() = pinInSelect; // Using here a NAND gate as a not gate (instead using NotGate) m_NandGateTwo.setPinInOne() = pinInSelect; m_NandGateTwo.setPinInTwo() = pinInSelect; m_NandGateThree.setPinInOne() = m_NandGateTwo.getPinOut(); m_NandGateThree.setPinInTwo() = pinInTwo; m_NandGateFour.setPinInOne() = m_NandGateOne.getPinOut(); m_NandGateFour.setPinInTwo() = m_NandGateThree.getPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinInSelect() const { return m_PinInSelect; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } bool& setPinInSelect() { return m_PinInSelect; } private: void updateInternalStates() { m_NandGateOne.setPinInOne() = m_PinInOne; m_NandGateOne.setPinInTwo() = m_PinInSelect; // Using here a NAND gate as a not gate (instead using NotGate) m_NandGateTwo.setPinInOne() = m_PinInSelect; m_NandGateTwo.setPinInTwo() = m_PinInSelect; m_NandGateThree.setPinInOne() = m_NandGateTwo.getPinOut(); m_NandGateThree.setPinInTwo() = m_PinInTwo; m_NandGateFour.setPinInOne() = m_NandGateOne.getPinOut(); m_NandGateFour.setPinInTwo() = m_NandGateThree.getPinOut(); m_PinOut = m_NandGateFour.getPinOut(); } }; class MultiplexerFourToOne { private: MultiplexerTwoToOne m_MultiplexerTwoToOneOne; MultiplexerTwoToOne m_MultiplexerTwoToOneTwo; MultiplexerTwoToOne m_MultiplexerTwoToOneThree; bool m_PinInOne; bool m_PinInTwo; bool m_PinInThree; bool m_PinInFour; bool m_PinInSelectOne; bool m_PinInSelectTwo; bool m_PinOut; public: MultiplexerFourToOne() : m_MultiplexerTwoToOneOne(), m_MultiplexerTwoToOneTwo(), m_MultiplexerTwoToOneThree(), m_PinInOne(), m_PinInTwo(false), m_PinInThree(false), m_PinInFour(false), m_PinInSelectOne(false), m_PinInSelectTwo(false), m_PinOut(false){} MultiplexerFourToOne(bool pinInOne, bool pinInTwo, bool pinInThree, bool pinInFour, bool pinInSelectOne, bool pinInSelectTwo, bool pinOut) : m_MultiplexerTwoToOneOne(), m_MultiplexerTwoToOneTwo(), m_MultiplexerTwoToOneThree(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinInThree(pinInThree), m_PinInFour(pinInFour), m_PinInSelectOne(pinInSelectOne), m_PinInSelectTwo(pinInSelectTwo), m_PinOut(pinOut) { m_MultiplexerTwoToOneOne.setPinInOne() = pinInOne; m_MultiplexerTwoToOneOne.setPinInTwo() = pinInTwo; m_MultiplexerTwoToOneOne.setPinInSelect() = pinInSelectOne; m_MultiplexerTwoToOneTwo.setPinInOne() = pinInThree; m_MultiplexerTwoToOneTwo.setPinInTwo() = pinInFour; m_MultiplexerTwoToOneTwo.setPinInSelect() = pinInSelectOne; m_MultiplexerTwoToOneThree.setPinInOne() = m_MultiplexerTwoToOneOne.getPinOut(); m_MultiplexerTwoToOneThree.setPinInTwo() = m_MultiplexerTwoToOneTwo.getPinOut(); m_MultiplexerTwoToOneThree.setPinInSelect() = pinInSelectTwo; } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinInThree() const { return m_PinInThree; } const bool& getPinInFour() const { return m_PinInFour; } const bool& getPinInSelectOne() const { return m_PinInSelectOne; } const bool& getPinInSelectTwo() const { return m_PinInSelectTwo; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } bool& setPinInThree() { return m_PinInThree; } bool& setPinInFour() { return m_PinInFour; } bool& setPinInSelectOne() { return m_PinInSelectOne; } bool& setPinInSelectTwo() { return m_PinInSelectTwo; } private: void updateInternalStates() { m_MultiplexerTwoToOneOne.setPinInOne() = m_PinInOne; m_MultiplexerTwoToOneOne.setPinInTwo() = m_PinInTwo; m_MultiplexerTwoToOneOne.setPinInSelect() = m_PinInSelectOne; m_MultiplexerTwoToOneTwo.setPinInOne() = m_PinInThree; m_MultiplexerTwoToOneTwo.setPinInTwo() = m_PinInFour; m_MultiplexerTwoToOneTwo.setPinInSelect() = m_PinInSelectOne; m_MultiplexerTwoToOneThree.setPinInOne() = m_MultiplexerTwoToOneOne.getPinOut(); m_MultiplexerTwoToOneThree.setPinInTwo() = m_MultiplexerTwoToOneTwo.getPinOut(); m_MultiplexerTwoToOneThree.setPinInSelect() = m_PinInSelectTwo; m_PinOut = m_MultiplexerTwoToOneThree.getPinOut(); } }; class OrGate { private: Transistor m_TransistorOne; Transistor m_TransistorTwo; bool m_PinInOne; bool m_PinInTwo; bool m_PinOut; public: OrGate() : m_TransistorOne(), m_TransistorTwo(), m_PinInOne(false), m_PinInTwo(false), m_PinOut(false){} OrGate(bool pinInOne, bool pinInTwo, bool pinOut) : m_TransistorOne(), m_TransistorTwo(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinOut(pinOut) { m_TransistorOne.setCollecterPinIn() = schema.getVoltageRail(); m_TransistorOne.setBasePinIn() = pinInOne; m_TransistorTwo.setBasePinIn() = pinInTwo; m_TransistorTwo.setCollecterPinIn() = m_TransistorOne.getEmitterPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } private: void updateInternalStates() { m_TransistorOne.setCollecterPinIn() = schema.getVoltageRail(); m_TransistorOne.setBasePinIn() = m_PinInOne; m_TransistorTwo.setBasePinIn() = m_PinInTwo; m_TransistorTwo.setCollecterPinIn() = schema.getVoltageRail(); if(m_PinInOne || m_PinInTwo) m_PinOut = true; else m_PinOut = false; // m_PinOut = m_TransistorTwo.getEmitterPinOut(); } }; class XorGate { private: NotGate m_NotGateOne; NotGate m_NotGateTwo; AndGate m_AndGateOne; AndGate m_AndGateTwo; OrGate m_OrGate; bool m_PinInOne; bool m_PinInTwo; bool m_PinOut; public: XorGate() : m_NotGateOne(), m_NotGateTwo(), m_AndGateOne(), m_AndGateTwo(), m_OrGate(), m_PinInOne(false), m_PinInTwo(false), m_PinOut(false){} XorGate(bool pinInOne, bool pinInTwo, bool pinOut) : m_NotGateOne(), m_NotGateTwo(), m_AndGateOne(), m_AndGateTwo(), m_OrGate(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinOut(pinOut) { m_NotGateOne.setPinIn() = pinInOne; m_NotGateOne.setPinIn() = pinInTwo; m_AndGateOne.setPinInOne() = pinInOne; m_AndGateOne.setPinInTwo() = m_NotGateOne.getPinOut(); m_AndGateTwo.setPinInOne() = m_NotGateTwo.getPinOut(); m_AndGateTwo.setPinInTwo() = pinInTwo; m_OrGate.setPinInOne() = m_AndGateOne.getPinOut(); m_OrGate.setPinInTwo() = m_AndGateTwo.getPinOut(); m_PinOut = m_OrGate.getPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinOut() { updateInternalStates(); return m_PinOut; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } private: void updateInternalStates() { m_NotGateOne.setPinIn() = m_PinInOne; m_NotGateTwo.setPinIn() = m_PinInTwo; m_AndGateOne.setPinInOne() = m_PinInOne; m_AndGateOne.setPinInTwo() = m_NotGateTwo.getPinOut(); m_AndGateTwo.setPinInOne() = m_NotGateOne.getPinOut(); m_AndGateTwo.setPinInTwo() = m_PinInTwo; m_OrGate.setPinInOne() = m_AndGateOne.getPinOut(); m_OrGate.setPinInTwo() = m_AndGateTwo.getPinOut(); m_PinOut = m_OrGate.getPinOut(); } }; class HalfAdder { private: XorGate m_XorGate; AndGate m_AndGate; bool m_PinInOne; bool m_PinInTwo; bool m_PinOutOne; bool m_PinOutTwo; public: HalfAdder() : m_XorGate(), m_AndGate(), m_PinInOne(false), m_PinInTwo(false), m_PinOutOne(false), m_PinOutTwo(false) {} HalfAdder(bool pinInOne, bool pinInTwo, bool pinOutOne, bool pinOutTwo) : m_XorGate(), m_AndGate(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinOutOne(pinOutOne), m_PinOutTwo(pinOutTwo) { m_XorGate.setPinInOne() = pinInOne; m_XorGate.setPinInTwo() = pinInTwo; m_AndGate.setPinInOne() = pinInOne; m_AndGate.setPinInTwo() = pinInTwo; m_PinOutOne = m_XorGate.getPinOut(); m_PinOutTwo = m_AndGate.getPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinOutOne() { updateInternalStates(); return m_PinOutOne; } const bool& getPinOutTwo() { updateInternalStates(); return m_PinOutTwo; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } private: void updateInternalStates() { m_XorGate.setPinInOne() = m_PinInOne; m_XorGate.setPinInTwo() = m_PinInTwo; m_AndGate.setPinInOne() = m_PinInOne; m_AndGate.setPinInTwo() = m_PinInTwo; m_PinOutOne = m_XorGate.getPinOut(); m_PinOutTwo = m_AndGate.getPinOut(); } }; class FullAdder { private: HalfAdder m_HalfAdderOne; HalfAdder m_HalfAdderTwo; OrGate m_OrGate; bool m_PinInOne; bool m_PinInTwo; bool m_PinInCarry; bool m_PinOutOne; bool m_PinOutTwo; public: FullAdder() : m_HalfAdderOne(), m_HalfAdderTwo(), m_OrGate(), m_PinInOne(false), m_PinInTwo(false), m_PinInCarry(false), m_PinOutOne(false), m_PinOutTwo(false) {} FullAdder(bool pinInOne, bool pinInTwo, bool pinInCarry, bool pinOutOne, bool pinOutTwo) : m_HalfAdderOne(), m_HalfAdderTwo(), m_OrGate(), m_PinInOne(pinInOne), m_PinInTwo(pinInTwo), m_PinInCarry(pinInCarry), m_PinOutOne(pinOutOne), m_PinOutTwo(pinOutTwo) { m_HalfAdderOne.setPinInOne() = pinInOne; m_HalfAdderOne.setPinInTwo() = pinInTwo; m_HalfAdderTwo.setPinInOne() = m_HalfAdderOne.getPinOutOne(); m_HalfAdderTwo.setPinInTwo() = pinInCarry; m_OrGate.setPinInOne() = m_HalfAdderOne.getPinOutTwo(); m_OrGate.setPinInTwo() = m_HalfAdderTwo.getPinOutTwo(); m_PinOutOne = m_HalfAdderTwo.getPinOutOne(); m_PinOutTwo = m_OrGate.getPinOut(); } const bool& getPinInOne() const { return m_PinInOne; } const bool& getPinInTwo() const { return m_PinInTwo; } const bool& getPinInCarry() const { return m_PinInCarry; } const bool& getPinOutOne() { updateInternalStates(); return m_PinOutOne; } const bool& getPinOutTwo() { updateInternalStates(); return m_PinOutTwo; } bool& setPinInOne() { return m_PinInOne; } bool& setPinInTwo() { return m_PinInTwo; } bool& setPinInCarry() { return m_PinInCarry; } private: void updateInternalStates() { m_HalfAdderOne.setPinInOne() = m_PinInOne; m_HalfAdderOne.setPinInTwo() = m_PinInTwo; m_HalfAdderTwo.setPinInOne() = m_HalfAdderOne.getPinOutOne(); m_HalfAdderTwo.setPinInTwo() = m_PinInCarry; m_OrGate.setPinInOne() = m_HalfAdderOne.getPinOutTwo(); m_OrGate.setPinInTwo() = m_HalfAdderTwo.getPinOutTwo(); m_PinOutOne = m_HalfAdderTwo.getPinOutOne(); m_PinOutTwo = m_OrGate.getPinOut(); } }; using namespace std; int main() { schema.m_NotGate = new NotGate(); schema.m_NotGate->setPinIn() = false; cout << "NOT 0: " << schema.m_NotGate->getPinOut() << endl; schema.m_NotGate->setPinIn() = true; cout << "NOT 1: " << schema.m_NotGate->getPinOut() << endl << endl; schema.m_AndGate = new AndGate(); schema.m_AndGate->setPinInOne() = false; schema.m_AndGate->setPinInTwo() = false; cout << "0 AND 0: " << schema.m_AndGate->getPinOut() << endl; schema.m_AndGate->setPinInOne() = false; schema.m_AndGate->setPinInTwo() = true; cout << "0 AND 1: " << schema.m_AndGate->getPinOut() << endl; schema.m_AndGate->setPinInOne() = true; schema.m_AndGate->setPinInTwo() = false; cout << "1 AND 0: " << schema.m_AndGate->getPinOut() << endl; schema.m_AndGate->setPinInOne() = true; schema.m_AndGate->setPinInTwo() = true; cout << "1 AND 1: " << schema.m_AndGate->getPinOut() << endl << endl; schema.m_NandGate = new NandGate(); schema.m_NandGate->setPinInOne() = false; schema.m_NandGate->setPinInTwo() = false; cout << "0 NAND 0: " << schema.m_NandGate->getPinOut() << endl; schema.m_NandGate->setPinInOne() = false; schema.m_NandGate->setPinInTwo() = true; cout << "0 NAND 1: " << schema.m_NandGate->getPinOut() << endl; schema.m_NandGate->setPinInOne() = true; schema.m_NandGate->setPinInTwo() = false; cout << "1 NAND 0: " << schema.m_NandGate->getPinOut() << endl; schema.m_NandGate->setPinInOne() = true; schema.m_NandGate->setPinInTwo() = true; cout << "1 NAND 1: " << schema.m_NandGate->getPinOut() << endl << endl; schema.m_NandGateThree = new NandGateThree(); schema.m_NandGateThree->setPinInOne() = false; schema.m_NandGateThree->setPinInTwo() = false; schema.m_NandGateThree->setPinInThree() = false; cout << "NAND 0 0 0: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = false; schema.m_NandGateThree->setPinInTwo() = false; schema.m_NandGateThree->setPinInThree() = true; cout << "NAND 0 0 1: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = false; schema.m_NandGateThree->setPinInTwo() = true; schema.m_NandGateThree->setPinInThree() = false; cout << "NAND 0 1 0: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = false; schema.m_NandGateThree->setPinInTwo() = true; schema.m_NandGateThree->setPinInThree() = true; cout << "NAND 0 1 1: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = true; schema.m_NandGateThree->setPinInTwo() = false; schema.m_NandGateThree->setPinInThree() = false; cout << "NAND 1 0 0: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = true; schema.m_NandGateThree->setPinInTwo() = false; schema.m_NandGateThree->setPinInThree() = true; cout << "NAND 1 0 1: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = true; schema.m_NandGateThree->setPinInTwo() = true; schema.m_NandGateThree->setPinInThree() = false; cout << "NAND 1 1 0: " << schema.m_NandGateThree->getPinOut() << endl; schema.m_NandGateThree->setPinInOne() = true; schema.m_NandGateThree->setPinInTwo() = true; schema.m_NandGateThree->setPinInThree() = true; cout << "NAND 1 1 1: " << schema.m_NandGateThree->getPinOut() << endl << endl; schema.m_DataFlipFlop = new DataFlipFlop(); schema.m_DataFlipFlop->setPinInData() = false; schema.m_DataFlipFlop->setPinInClock() = false; cout << "[Q] CLOCKED_SR_FLIP_FLOP 0 0: " << schema.m_DataFlipFlop->getPinOutQ() << endl; cout << "[Q'] CLOCKED_SR_FLIP_FLOP 0 0: " << schema.m_DataFlipFlop->getPinOutQI() << endl; schema.m_DataFlipFlop->setPinInData() = false; schema.m_DataFlipFlop->setPinInClock() = true; cout << "[Q] CLOCKED_SR_FLIP_FLOP 0 1: " << schema.m_DataFlipFlop->getPinOutQ() << endl; cout << "[Q'] CLOCKED_SR_FLIP_FLOP 0 1: " << schema.m_DataFlipFlop->getPinOutQI() << endl; schema.m_DataFlipFlop->setPinInData() = true; schema.m_DataFlipFlop->setPinInClock() = false; cout << "[Q] CLOCKED_SR_FLIP_FLOP 1 0: " << schema.m_DataFlipFlop->getPinOutQ() << endl; cout << "[Q'] CLOCKED_SR_FLIP_FLOP 1 0: " << schema.m_DataFlipFlop->getPinOutQI() << endl; schema.m_DataFlipFlop->setPinInData() = true; schema.m_DataFlipFlop->setPinInClock() = true; cout << "[Q] CLOCKED_SR_FLIP_FLOP 1 1: " << schema.m_DataFlipFlop->getPinOutQ() << endl; cout << "[Q'] CLOCKED_SR_FLIP_FLOP 1 1: " << schema.m_DataFlipFlop->getPinOutQI() << endl; const unsigned int SHIFT_REGISTER_SIZE = 32U; bool clock = false; bool memoryData[SHIFT_REGISTER_SIZE] = {}; memoryData[0] = true; memoryData[1] = true; memoryData[2] = false; memoryData[3] = true; bool registerOutput[SHIFT_REGISTER_SIZE] = {}; cout << "Memory data: " << endl; for(unsigned memoryDataIndex = 0x00000000U; memoryDataIndex < SHIFT_REGISTER_SIZE; memoryDataIndex++) { cout << memoryData[memoryDataIndex]; } cout << endl << "Resulted shift register: " << endl; for(unsigned int dataFlipFlopIndex = 0x00000000U; dataFlipFlopIndex < SHIFT_REGISTER_SIZE/2; dataFlipFlopIndex+=2) { schema.m_ShiftRegister32[dataFlipFlopIndex] = new DataFlipFlop(); schema.m_ShiftRegister32[dataFlipFlopIndex+1] = new DataFlipFlop(); schema.m_ShiftRegister32[dataFlipFlopIndex]->setPinInData() = memoryData[dataFlipFlopIndex]; schema.m_ShiftRegister32[dataFlipFlopIndex]->setPinInClock() = clock; schema.m_ShiftRegister32[dataFlipFlopIndex+1]->setPinInData() = schema.m_ShiftRegister32[dataFlipFlopIndex]->getPinOutQ(); schema.m_ShiftRegister32[dataFlipFlopIndex+1]->setPinInClock() = clock; std::cout << schema.m_ShiftRegister32[dataFlipFlopIndex]->getPinOutQ() << schema.m_ShiftRegister32[dataFlipFlopIndex+1]->getPinOutQ(); } // Swap clock state //if(clock == false) { clock = true; } else { clock = false; } cout << endl << endl; /* unsigned int counter = 0x0U; bool setData = false; while(true) { if((counter % 5) == 0) std::cin >> setData; schema.m_DataFlipFlop->setPinInData() = setData; schema.m_DataFlipFlop->setPinInClock() = clock; cout << "[Q] CLOCKED_SR_FLIP_FLOP " << setData << " " << clock << ": " << schema.m_DataFlipFlop->getPinOutQ() << endl; cout << "[Q'] CLOCKED_SR_FLIP_FLOP " << setData << " " << clock << ": " << schema.m_DataFlipFlop->getPinOutQI() << endl << endl; // Swap clock state if(clock == false) { clock = true; } else { clock = false; } counter++; } */ schema.m_MultiplexerTwoToOne = new MultiplexerTwoToOne(); schema.m_MultiplexerTwoToOne->setPinInOne() = false; schema.m_MultiplexerTwoToOne->setPinInTwo() = false; schema.m_MultiplexerTwoToOne->setPinInSelect() = false; cout << "MUX 0 0 0: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = false; schema.m_MultiplexerTwoToOne->setPinInTwo() = false; schema.m_MultiplexerTwoToOne->setPinInSelect() = true; cout << "MUX 0 0 1: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = false; schema.m_MultiplexerTwoToOne->setPinInTwo() = true; schema.m_MultiplexerTwoToOne->setPinInSelect() = false; cout << "MUX 0 1 0: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = false; schema.m_MultiplexerTwoToOne->setPinInTwo() = true; schema.m_MultiplexerTwoToOne->setPinInSelect() = true; cout << "MUX 0 1 1: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = true; schema.m_MultiplexerTwoToOne->setPinInTwo() = false; schema.m_MultiplexerTwoToOne->setPinInSelect() = false; cout << "MUX 1 0 0: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = true; schema.m_MultiplexerTwoToOne->setPinInTwo() = false; schema.m_MultiplexerTwoToOne->setPinInSelect() = true; cout << "MUX 1 0 1: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = true; schema.m_MultiplexerTwoToOne->setPinInTwo() = true; schema.m_MultiplexerTwoToOne->setPinInSelect() = false; cout << "MUX 1 1 0: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl; schema.m_MultiplexerTwoToOne->setPinInOne() = true; schema.m_MultiplexerTwoToOne->setPinInTwo() = true; schema.m_MultiplexerTwoToOne->setPinInSelect() = true; cout << "MUX 1 1 1: " << schema.m_MultiplexerTwoToOne->getPinOut() << endl << endl; schema.m_MultiplexerFourToOne = new MultiplexerFourToOne(); schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[00] MUX 0 0 0 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[01] MUX 0 0 0 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[02] MUX 0 0 0 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[03] MUX 0 0 0 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[04] MUX 0 0 0 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[05] MUX 0 0 0 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[06] MUX 0 0 0 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[07] MUX 0 0 0 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[08] MUX 0 0 1 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[09] MUX 0 0 1 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[10] MUX 0 0 1 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[11] MUX 0 0 1 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[12] MUX 0 0 1 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[13] MUX 0 0 1 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[14] MUX 0 0 1 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[15] MUX 0 0 1 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[16] MUX 0 1 0 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[17] MUX 0 1 0 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[18] MUX 0 1 0 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[19] MUX 0 1 0 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[20] MUX 0 1 0 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[21] MUX 0 1 0 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[22] MUX 0 1 0 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[23] MUX 0 1 0 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[24] MUX 0 1 1 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[25] MUX 0 1 1 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[26] MUX 0 1 1 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[27] MUX 0 1 1 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[28] MUX 0 1 1 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[29] MUX 0 1 1 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[30] MUX 0 1 1 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = false; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[31] MUX 0 1 1 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[32] MUX 1 0 0 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[33] MUX 1 0 0 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[34] MUX 1 0 0 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[35] MUX 1 0 0 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[36] MUX 1 0 0 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[37] MUX 1 0 0 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[38] MUX 1 0 0 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[39] MUX 1 0 0 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[40] MUX 1 0 1 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[41] MUX 1 0 1 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[42] MUX 1 0 1 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[43] MUX 1 0 1 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[44] MUX 1 0 1 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[45] MUX 1 0 1 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[46] MUX 1 0 1 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = false; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[47] MUX 1 0 1 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[48] MUX 1 1 0 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[49] MUX 1 1 0 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[50] MUX 1 1 0 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[51] MUX 1 1 0 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[52] MUX 1 1 0 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[53] MUX 1 1 0 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[54] MUX 1 1 0 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = false; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[55] MUX 1 1 0 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[56] MUX 1 1 1 0 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[57] MUX 1 1 1 0 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[58] MUX 1 1 1 0 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = false; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[59] MUX 1 1 1 0 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[60] MUX 1 1 1 1 0 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = false; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[61] MUX 1 1 1 1 0 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = false; cout << "[62] MUX 1 1 1 1 1 0: " << schema.m_MultiplexerFourToOne->getPinOut() << endl; schema.m_MultiplexerFourToOne->setPinInOne() = true; schema.m_MultiplexerFourToOne->setPinInTwo() = true; schema.m_MultiplexerFourToOne->setPinInThree() = true; schema.m_MultiplexerFourToOne->setPinInFour() = true; schema.m_MultiplexerFourToOne->setPinInSelectOne() = true; schema.m_MultiplexerFourToOne->setPinInSelectTwo() = true; cout << "[63] MUX 1 1 1 1 1 1: " << schema.m_MultiplexerFourToOne->getPinOut() << endl << endl; schema.m_OrGate = new OrGate(); schema.m_OrGate->setPinInOne() = false; schema.m_OrGate->setPinInTwo() = false; cout << "0 OR 0: " << schema.m_OrGate->getPinOut() << endl; schema.m_OrGate->setPinInOne() = false; schema.m_OrGate->setPinInTwo() = true; cout << "0 OR 1: " << schema.m_OrGate->getPinOut() << endl; schema.m_OrGate->setPinInOne() = true; schema.m_OrGate->setPinInTwo() = false; cout << "1 OR 0: " << schema.m_OrGate->getPinOut() << endl; schema.m_OrGate->setPinInOne() = true; schema.m_OrGate->setPinInTwo() = true; cout << "1 OR 1: " << schema.m_OrGate->getPinOut() << endl << endl; schema.m_XorGate = new XorGate(); schema.m_XorGate->setPinInOne() = false; schema.m_XorGate->setPinInTwo() = false; cout << "0 XOR 0: " << schema.m_XorGate->getPinOut() << endl; schema.m_XorGate->setPinInOne() = false; schema.m_XorGate->setPinInTwo() = true; cout << "0 XOR 1: " << schema.m_XorGate->getPinOut() << endl; schema.m_XorGate->setPinInOne() = true; schema.m_XorGate->setPinInTwo() = false; cout << "1 XOR 0: " << schema.m_XorGate->getPinOut() << endl; schema.m_XorGate->setPinInOne() = true; schema.m_XorGate->setPinInTwo() = true; cout << "1 XOR 1: " << schema.m_XorGate->getPinOut() << endl << endl; schema.m_HalfAdder = new HalfAdder(); schema.m_HalfAdder->setPinInOne() = false; schema.m_HalfAdder->setPinInTwo() = false; cout << "0 HADD 0: SUM(" << schema.m_HalfAdder->getPinOutOne() << ") CARRY(" << schema.m_HalfAdder->getPinOutTwo() << ")" << endl; schema.m_HalfAdder->setPinInOne() = false; schema.m_HalfAdder->setPinInTwo() = true; cout << "0 HADD 1: SUM(" << schema.m_HalfAdder->getPinOutOne() << ") CARRY(" << schema.m_HalfAdder->getPinOutTwo() << ")" << endl; schema.m_HalfAdder->setPinInOne() = true; schema.m_HalfAdder->setPinInTwo() = false; cout << "1 HADD 0: SUM(" << schema.m_HalfAdder->getPinOutOne() << ") CARRY(" << schema.m_HalfAdder->getPinOutTwo() << ")" << endl; schema.m_HalfAdder->setPinInOne() = true; schema.m_HalfAdder->setPinInTwo() = true; cout << "1 HADD 1: SUM(" << schema.m_HalfAdder->getPinOutOne() << ") CARRY(" << schema.m_HalfAdder->getPinOutTwo() << ")" << endl << endl; schema.m_FullAdder = new FullAdder(); schema.m_FullAdder->setPinInCarry() = false; schema.m_FullAdder->setPinInOne() = false; schema.m_FullAdder->setPinInTwo() = false; cout << "0 CARRY 0 FADD 0 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = false; schema.m_FullAdder->setPinInOne() = false; schema.m_FullAdder->setPinInTwo() = true; cout << "0 CARRY 0 FADD 1 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = false; schema.m_FullAdder->setPinInOne() = true; schema.m_FullAdder->setPinInTwo() = false; cout << "0 CARRY 1 FADD 0 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = false; schema.m_FullAdder->setPinInOne() = true; schema.m_FullAdder->setPinInTwo() = true; cout << "0 CARRY 1 FADD 1 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = true; schema.m_FullAdder->setPinInOne() = false; schema.m_FullAdder->setPinInTwo() = false; cout << "1 CARRY 0 FADD 0 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = true; schema.m_FullAdder->setPinInOne() = false; schema.m_FullAdder->setPinInTwo() = true; cout << "1 CARRY 0 FADD 1 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = true; schema.m_FullAdder->setPinInOne() = true; schema.m_FullAdder->setPinInTwo() = false; cout << "1 CARRY 1 FADD 0 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl; schema.m_FullAdder->setPinInCarry() = true; schema.m_FullAdder->setPinInOne() = true; schema.m_FullAdder->setPinInTwo() = true; cout << "1 CARRY 1 FADD 1 SUM(" << schema.m_FullAdder->getPinOutOne() << ") CARRY(" << schema.m_FullAdder->getPinOutTwo() << ")" << endl << endl; const unsigned int DATA_BUFFER = 512U; bool dataAddress[2][DATA_BUFFER] = {}; dataAddress[0][0] = true; dataAddress[0][1] = true; dataAddress[1][0] = true; dataAddress[1][1] = true; bool resultRegister[DATA_BUFFER] = {}; cout << "Memory address X: " << endl; for(unsigned int addressLineIndex = 0x00000000U; addressLineIndex < DATA_BUFFER; addressLineIndex++) { cout << dataAddress[0][addressLineIndex]; } cout << endl << "Memory address Y: " << endl; for(unsigned int addressLineIndex = 0x00000000U; addressLineIndex < DATA_BUFFER; addressLineIndex++) { cout << dataAddress[1][addressLineIndex]; } cout << endl << "Result of adding X and Y: " << endl; for(unsigned int addressLineIndex = 0x00000000U; addressLineIndex < DATA_BUFFER; addressLineIndex++) { schema.m_BusAdder512[addressLineIndex] = new FullAdder(); schema.m_BusAdder512[addressLineIndex]->setPinInOne() = dataAddress[0][addressLineIndex]; schema.m_BusAdder512[addressLineIndex]->setPinInTwo() = dataAddress[1][addressLineIndex]; if(addressLineIndex > 0x00000000U) { schema.m_BusAdder512[addressLineIndex]->setPinInCarry() = schema.m_BusAdder512[addressLineIndex-1]->getPinOutTwo(); } resultRegister[addressLineIndex] = schema.m_BusAdder512[addressLineIndex]->getPinOutOne(); cout << resultRegister[addressLineIndex]; } delete schema.m_NotGate; delete schema.m_AndGate; delete schema.m_NandGate; delete schema.m_NandGateThree; delete schema.m_DataFlipFlop; for(unsigned int clockedSrLatchFlipFlopIndex = 0x00000000U; clockedSrLatchFlipFlopIndex < SHIFT_REGISTER_SIZE; clockedSrLatchFlipFlopIndex++) { delete schema.m_ShiftRegister32[clockedSrLatchFlipFlopIndex]; } delete schema.m_MultiplexerTwoToOne; delete schema.m_MultiplexerFourToOne; delete schema.m_OrGate; delete schema.m_XorGate; delete schema.m_HalfAdder; delete schema.m_FullAdder; for(unsigned int fullAdderIndex = 0x00000000U; fullAdderIndex < DATA_BUFFER; fullAdderIndex++) { delete schema.m_BusAdder512[fullAdderIndex]; } return 0; }
Become a Patron
Sponsor on GitHub
Donate via PayPal
Source on GitHub
Mailing list
Installed libraries
Wiki
Report an issue
How it works
Contact the author
CE on Mastodon
About the author
Statistics
Changelog
Version tree