1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
|
// Verilated -*- C++ -*-
// DESCRIPTION: Verilator output: Tracing implementation internals
#include "verilated_vcd_c.h"
#include "Valu6__Syms.h"
//======================
void Valu6::trace(VerilatedVcdC* tfp, int, int) {
tfp->spTrace()->addInitCb(&traceInit, __VlSymsp);
traceRegister(tfp->spTrace());
}
void Valu6::traceInit(void* userp, VerilatedVcd* tracep, uint32_t code) {
// Callback from tracep->open()
Valu6__Syms* __restrict vlSymsp = static_cast<Valu6__Syms*>(userp);
if (!Verilated::calcUnusedSigs()) {
VL_FATAL_MT(__FILE__, __LINE__, __FILE__,
"Turning on wave traces requires Verilated::traceEverOn(true) call before time 0.");
}
vlSymsp->__Vm_baseCode = code;
tracep->module(vlSymsp->name());
tracep->scopeEscape(' ');
Valu6::traceInitTop(vlSymsp, tracep);
tracep->scopeEscape('.');
}
//======================
void Valu6::traceInitTop(void* userp, VerilatedVcd* tracep) {
Valu6__Syms* __restrict vlSymsp = static_cast<Valu6__Syms*>(userp);
Valu6* const __restrict vlTOPp VL_ATTR_UNUSED = vlSymsp->TOPp;
// Body
{
vlTOPp->traceInitSub0(userp, tracep);
}
}
void Valu6::traceInitSub0(void* userp, VerilatedVcd* tracep) {
Valu6__Syms* __restrict vlSymsp = static_cast<Valu6__Syms*>(userp);
Valu6* const __restrict vlTOPp VL_ATTR_UNUSED = vlSymsp->TOPp;
const int c = vlSymsp->__Vm_baseCode;
if (false && tracep && c) {} // Prevent unused
// Body
{
tracep->declBus(c+1,"alu_in_1", false,-1, 31,0);
tracep->declBus(c+2,"alu_in_2", false,-1, 31,0);
tracep->declBus(c+3,"alu_op_i", false,-1, 3,0);
tracep->declBus(c+4,"alu_output", false,-1, 31,0);
tracep->declBus(c+1,"alu6 alu_in_1", false,-1, 31,0);
tracep->declBus(c+2,"alu6 alu_in_2", false,-1, 31,0);
tracep->declBus(c+3,"alu6 alu_op_i", false,-1, 3,0);
tracep->declBus(c+4,"alu6 alu_output", false,-1, 31,0);
tracep->declBus(c+5,"alu6 complement2", false,-1, 31,0);
tracep->declBus(c+6,"alu6 sum", false,-1, 31,0);
tracep->declBus(c+7,"alu6 right", false,-1, 31,0);
}
}
void Valu6::traceRegister(VerilatedVcd* tracep) {
// Body
{
tracep->addFullCb(&traceFullTop0, __VlSymsp);
tracep->addChgCb(&traceChgTop0, __VlSymsp);
tracep->addCleanupCb(&traceCleanup, __VlSymsp);
}
}
void Valu6::traceFullTop0(void* userp, VerilatedVcd* tracep) {
Valu6__Syms* __restrict vlSymsp = static_cast<Valu6__Syms*>(userp);
Valu6* const __restrict vlTOPp VL_ATTR_UNUSED = vlSymsp->TOPp;
// Body
{
vlTOPp->traceFullSub0(userp, tracep);
}
}
void Valu6::traceFullSub0(void* userp, VerilatedVcd* tracep) {
Valu6__Syms* __restrict vlSymsp = static_cast<Valu6__Syms*>(userp);
Valu6* const __restrict vlTOPp VL_ATTR_UNUSED = vlSymsp->TOPp;
vluint32_t* const oldp = tracep->oldp(vlSymsp->__Vm_baseCode);
if (false && oldp) {} // Prevent unused
// Body
{
tracep->fullIData(oldp+1,(vlTOPp->alu_in_1),32);
tracep->fullIData(oldp+2,(vlTOPp->alu_in_2),32);
tracep->fullCData(oldp+3,(vlTOPp->alu_op_i),4);
tracep->fullIData(oldp+4,(vlTOPp->alu_output),32);
tracep->fullIData(oldp+5,(((IData)(1U) + (~ vlTOPp->alu_in_2))),32);
tracep->fullIData(oldp+6,(vlTOPp->alu6__DOT__sum),32);
tracep->fullIData(oldp+7,((((0x1fU >= (0x3fU
& vlTOPp->alu_in_2))
? (vlTOPp->alu_in_1
>> (0x3fU & vlTOPp->alu_in_2))
: 0U) | ((8U & (IData)(vlTOPp->alu_op_i))
? ((IData)(0xffffffffU)
<<
((0x80000000U
& vlTOPp->alu_in_2)
? 0U
:
((0x10U
& ((~
(vlTOPp->alu_in_2
>> 4U))
<< 4U))
| ((8U
& ((~
(vlTOPp->alu_in_2
>> 3U))
<< 3U))
| ((4U
& ((~
(vlTOPp->alu_in_2
>> 2U))
<< 2U))
| ((2U
& ((~
(vlTOPp->alu_in_2
>> 1U))
<< 1U))
| (1U
& (~ vlTOPp->alu_in_2))))))))
: 0U))),32);
}
}
|
