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main.cpp
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#include <iostream>
#include "include/document.h"
#include "include/carry4.h"
#include "include/full_adder.h"
#include "include/carry64.h"
#include "include/adder64.h"
using namespace lm;
void test_not();
void test_nand2();
void test_carry4();
void test_full_adder();
void test_carry_64(unsigned int seed);
void test_adder_64(unsigned int seed);
int main() {
test_adder_64(7);
}
void test_adder_64(unsigned int seed) {
logic_document doc("doc");
auto **p = new input *[64];
auto **g = new input *[64];
auto **s = new output *[64];
int i1 = (seed >> (unsigned)3) % 2;
int i2 = (seed >> (unsigned)2) % 2;
int i3 = (seed >> (unsigned)1) % 2;
int i4 = seed % 2;
for (int i = 0; i < 64; i++) {
if (i % 2 == 0) {
p[i] = new clock_iface("p", i1 == 1 ? constant_clock::one() : constant_clock::zero());
g[i] = new clock_iface("g", i2 == 1 ? constant_clock::one() : constant_clock::zero());
} else {
p[i] = new clock_iface("p", i3 == 1 ? constant_clock::one() : constant_clock::zero());
g[i] = new clock_iface("g", i4 == 1 ? constant_clock::one() : constant_clock::zero());
}
doc.ifaces.push_back(p[i]);
doc.ifaces.push_back(g[i]);
}
doc.clocks.push_back(constant_clock::one());
doc.clocks.push_back(constant_clock::zero());
clock_iface c0("c0", constant_clock::one());
doc.ifaces.push_back(&c0);
adder64 *a64 = new adder64("a64", &c0, p, g);
doc.devices.push_back(a64);
output Cout("Cout", a64);
a64->setCout(&Cout);
doc.ifaces.push_back(&Cout);
for (int i = 0; i < 64; i++) {
s[i] = new output("s", a64);
doc.ifaces.push_back(s[i]);
}
a64->setS(s);
printf("%4s %64s %64s c0 Cout %64s\n", "time", "a", "b", "s");
for (int i = 0; i < 100; i++) {
doc.update_document();
printf("%4d ", i);
a64->print();
cout<<endl;
}
for (int i = 0; i < 64; i++) {
delete p[i];
delete g[i];
delete s[i];
}
delete[] p;
delete[] g;
delete[] s;
delete a64;
}
void test_carry_64(unsigned int seed) {
logic_document doc("doc");
auto **p = new input *[64];
auto **g = new input *[64];
auto **c = new output *[64];
int i1 = (seed >> (unsigned)3) % 2;
int i2 = (seed >> (unsigned)2) % 2;
int i3 = (seed >> (unsigned)1) % 2;
int i4 = seed % 2;
for (int i = 0; i < 64; i++) {
if (i % 2 == 0) {
p[i] = new clock_iface("p", i1 == 1 ? constant_clock::one() : constant_clock::zero());
g[i] = new clock_iface("g", i2 == 1 ? constant_clock::one() : constant_clock::zero());
} else {
p[i] = new clock_iface("p", i3 == 1 ? constant_clock::one() : constant_clock::zero());
g[i] = new clock_iface("g", i4 == 1 ? constant_clock::one() : constant_clock::zero());
}
doc.ifaces.push_back(p[i]);
doc.ifaces.push_back(g[i]);
}
doc.clocks.push_back(constant_clock::one());
doc.clocks.push_back(constant_clock::zero());
clock_iface c0("c0", constant_clock::one());
doc.ifaces.push_back(&c0);
carry64 *c64 = new carry64("c64", &c0, p, g);
doc.devices.push_back(c64);
output P("P", c64);
output G("G", c64);
output Cout("Cout", c64);
c64->setCout(&Cout);
c64->setG64(&G);
c64->setP64(&P);
doc.ifaces.push_back(&P);
doc.ifaces.push_back(&G);
doc.ifaces.push_back(&Cout);
for (int i = 0; i < 64; i++) {
c[i] = new output("c", c64);
doc.ifaces.push_back(c[i]);
}
c64->setC(c);
printf("%64s %64s c40G c40P c40c1 c40c2 c40c3 c0 P64 G64 cout %64s\n", "p", "g", "c");
for (int i = 0; i < 100; i++) {
doc.update_document();
c64->print();
cout << endl;
}
for (int i = 0; i < 64; i++) {
delete p[i];
delete g[i];
delete c[i];
}
delete[] p;
delete[] g;
delete[] c;
delete c64;
}
void test_full_adder() {
logic_document doc("doc");
auto *cycle_a = new bool[8]{true, true, true, true, false, false, false, false};
auto *cycle_b = new bool[8]{true, true, false, false, true, true, false, false};
auto *cycle_c = new bool[8]{true, false, true, false, true, false, true, false};
periodic_clock ca(3, false, true, cycle_a, 8, 2, 5, false, "ca");
periodic_clock cb(3, false, true, cycle_b, 8, 2, 5, false, "cb");
periodic_clock cc(3, false, true, cycle_c, 8, 2, 5, false, "cc");
clock_iface a("a", &ca);
clock_iface b("b", &cb);
clock_iface c("a", &cc);
fadd f("f", &a, &b, &c);
output co("co", &f);
output s("s", &f);
f.setCo(&co);
f.setS(&s);
doc.clocks.push_back(&ca);
doc.clocks.push_back(&cb);
doc.clocks.push_back(&cc);
doc.ifaces.push_back(&a);
doc.ifaces.push_back(&b);
doc.ifaces.push_back(&c);
doc.ifaces.push_back(&co);
doc.ifaces.push_back(&s);
doc.devices.push_back(&f);
cout << "a b ci s co" << endl;
for (int i = 0; i < 100; i++) {
doc.update_document();
cout << a.get_signal() << " " << b.get_signal() << " " << c.get_signal() << " " << s.get_signal() << " "
<< co.get_signal() << endl;
}
delete[] cycle_a;
delete[] cycle_b;
delete[] cycle_c;
}
void test_carry4() {
logic_document doc("doc");
auto *cycle = new bool[2]{true, false};
periodic_clock c1(3, false, true, cycle, 2, 2, 64, false, "c1");
periodic_clock c2(3, false, true, cycle, 2, 4, 32, false, "c2");
periodic_clock c3(3, false, true, cycle, 2, 8, 16, false, "c3");
periodic_clock c4(3, false, true, cycle, 2, 16, 8, false, "c4");
clock_iface a1("a1", &c1);
clock_iface a2("a1", &c2);
clock_iface a3("a1", &c3);
clock_iface a4("a1", &c4);
clock_iface b1("b1", &c4);
clock_iface b2("b1", &c3);
clock_iface b3("b1", &c2);
clock_iface b4("b1", &c1);
clock_iface c0("c0", constant_clock::zero());
carry4 cy4("cy4", &c0, &a1, &a2, &a3, &a4, &b1, &b2, &b3, &b4);
output P("P", &cy4);
output G("G", &cy4);
output oc1("oc1", &cy4);
output oc2("oc2", &cy4);
output oc3("oc3", &cy4);
cy4.setP(&P);
cy4.setG(&G);
cy4.setC1(&oc1);
cy4.setC2(&oc2);
cy4.setC3(&oc3);
doc.clocks.push_back(&c1);
doc.clocks.push_back(&c2);
doc.clocks.push_back(&c3);
doc.clocks.push_back(&c4);
doc.ifaces.push_back(&a1);
doc.ifaces.push_back(&a2);
doc.ifaces.push_back(&a3);
doc.ifaces.push_back(&a4);
doc.ifaces.push_back(&b1);
doc.ifaces.push_back(&b2);
doc.ifaces.push_back(&b3);
doc.ifaces.push_back(&b4);
doc.ifaces.push_back(&P);
doc.ifaces.push_back(&G);
doc.ifaces.push_back(&oc1);
doc.ifaces.push_back(&oc2);
doc.ifaces.push_back(&oc3);
doc.devices.push_back(&cy4);
cout << "a1 a2 a3 a4 b1 b2 b3 b4 c0 P G c1 c2 c3" << endl;
for (int i = 0; i < 200; i++) {
doc.update_document();
cout << a1.get_signal() << " " << a2.get_signal() << " " << a3.get_signal() << " " << a4.get_signal() << " "
<< b1.get_signal() << " " << b2.get_signal() << " " << b3.get_signal() << " " << b4.get_signal() << " "
<< c0.get_signal() << " " << P.get_signal() << " " << G.get_signal() << " " << c1.get_signal() << " "
<< c2.get_signal() << " " << c3.get_signal() << " " << endl;
}
delete[] cycle;
}
void test_nand2() {
logic_document doc("doc");
auto *cycle_a = new bool[4]{true, false, true, false};
auto *cycle_b = new bool[4]{true, true, false, false};
periodic_clock ca(3, false, true, cycle_a, 4, 2, 2, false, "ca");
periodic_clock cb(3, false, true, cycle_b, 4, 2, 2, false, "cb");
clock_iface a("a", &ca);
clock_iface b("b", &cb);
and_not_device nand("nand", &a, &b);
output o("o", &nand);
nand.setO(&o);
doc.clocks.push_back(&ca);
doc.clocks.push_back(&cb);
doc.ifaces.push_back(&a);
doc.ifaces.push_back(&b);
doc.ifaces.push_back(&o);
doc.devices.push_back(&nand);
cout << "ca cb a b o" << endl;
for (int i = 0; i < 100; i++) {
doc.update_document();
cout << ca << " " << cb << " " << a.get_signal() << " " << b.get_signal() << " "
<< o.get_signal() << endl;
}
delete[] cycle_a;
delete[] cycle_b;
}
void test_not() {
logic_document doc("doc");
auto *cycle = new bool[4]{true, false, true, false};
periodic_clock c(3, false, true, cycle, 4, 2, 2, false, "c");
clock_iface a("a", &c);
nd n1("n1", &a);
output_iface on1("on1", &n1);
n1.setOutput(&on1);
link_iface l1("l1", &on1);
nd n2("n2", &l1);
output_iface on2("on2", &n2);
n2.setOutput(&on2);
doc.clocks.push_back(&c);
doc.ifaces.push_back(&a);
doc.ifaces.push_back(&on1);
doc.ifaces.push_back(&l1);
doc.ifaces.push_back(&on2);
doc.devices.push_back(&n1);
doc.devices.push_back(&n2);
cout << "c a on1 l1 on2" << endl;
for (int i = 0; i < 100; i++) {
doc.update_document();
cout << c.get_signal() << " " << a.get_signal() << " " << on1.get_signal() << " " << l1.get_signal() << " "
<< on2.get_signal() << endl;
}
delete[] cycle;
}