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Fix line coverage of public functions. 

Line coverage now aggregates by hierarchy automatically.
Previously this would be done inside SystemPerl, which was slower.
This commit is contained in:
Wilson Snyder 2008-12-05 10:54:14 -05:00
parent de61015e08
commit d3d1291d5a
8 changed files with 263 additions and 64 deletions
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5
Changes
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@ -9,8 +9,13 @@ indicates the contributor was also the author of the fix; Thanks!
*** Support posedge of bit-selected signals, bug45. [Rodney Sinclair] *** Support posedge of bit-selected signals, bug45. [Rodney Sinclair]
*** Line coverage now aggregates by hierarchy automatically.
Previously this would be done inside SystemPerl, which was slower.
**** Minor performance improvements of Verilator compiler runtime. **** Minor performance improvements of Verilator compiler runtime.
**** Fix line coverage of public functions. [Soon Koh]
**** Fix SystemC 2.2 deprecated warnings about sensitive() and sc_start(). **** Fix SystemC 2.2 deprecated warnings about sensitive() and sc_start().
**** Fix arrayed variables under function not compiling, bug44. [Ralf Karge] **** Fix arrayed variables under function not compiling, bug44. [Ralf Karge]

4
src/V3AstNodes.h
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@ -1006,16 +1006,20 @@ private:
string m_text; string m_text;
string m_hier; string m_hier;
int m_column; int m_column;
int m_binNum; // Set by V3EmitCSyms to tell final V3Emit what to increment
public: public:
AstCoverDecl(FileLine* fl, int column, const string& type, const string& comment) AstCoverDecl(FileLine* fl, int column, const string& type, const string& comment)
: AstNodeStmt(fl) { : AstNodeStmt(fl) {
m_text = comment; m_typeText = type; m_column = column; m_text = comment; m_typeText = type; m_column = column;
m_binNum = 0;
} }
ASTNODE_NODE_FUNCS(CoverDecl, COVERDECL) ASTNODE_NODE_FUNCS(CoverDecl, COVERDECL)
virtual void dump(ostream& str); virtual void dump(ostream& str);
virtual int instrCount() const { return 1+2*instrCountLd(); } virtual int instrCount() const { return 1+2*instrCountLd(); }
virtual bool maybePointedTo() const { return true; } virtual bool maybePointedTo() const { return true; }
int column() const { return m_column; } int column() const { return m_column; }
void binNum(int flag) { m_binNum = flag; }
int binNum() const { return m_binNum; }
const string& comment() const { return m_text; } // text to insert in code const string& comment() const { return m_text; } // text to insert in code
const string& typeText() const { return m_typeText; } const string& typeText() const { return m_typeText; }
const string& hier() const { return m_hier; } const string& hier() const { return m_hier; }

5
src/V3Depth.cpp
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@ -133,11 +133,6 @@ private:
m_funcp->isStatic(false); m_funcp->isStatic(false);
} }
} }
virtual void visit(AstCoverInc* nodep, AstNUser*) {
// OPTIMIZE: For now this needs this->__Vcoverage, but could be globalized
needNonStaticFunc(nodep);
visitStmt(nodep);
}
virtual void visit(AstUCFunc* nodep, AstNUser*) { virtual void visit(AstUCFunc* nodep, AstNUser*) {
needNonStaticFunc(nodep); needNonStaticFunc(nodep);
nodep->iterateChildren(*this); nodep->iterateChildren(*this);

75
src/V3EmitC.cpp
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@ -34,36 +34,6 @@
#define VL_VALUE_STRING_MAX_WIDTH 1024 // We use a static char array in VL_VALUE_STRING #define VL_VALUE_STRING_MAX_WIDTH 1024 // We use a static char array in VL_VALUE_STRING
//######################################################################
// Coverage ID tracking
class EmitCoverIds {
// TYPES
typedef map<AstCoverDecl*,int> CoverIdMap;
// MEMBERS
CoverIdMap m_coverIds; // Remapping of coverage IDs to per-module value
int m_coverIdsSize; // Size of m_coverIds (to avoid O(n^2) insert)
// METHODS
public:
void clear() {
m_coverIds.clear();
m_coverIdsSize = 0;
}
int size() const { return m_coverIdsSize; }
int remap(AstCoverDecl* declp) {
// Make cover ID for this point, unique on this module
CoverIdMap::iterator it = m_coverIds.find(declp);
if (it == m_coverIds.end()) {
m_coverIds.insert(make_pair(declp,m_coverIdsSize++)); // Remapping of coverage IDs to per-module value
return m_coverIdsSize-1;
} else {
return it->second;
}
}
EmitCoverIds() : m_coverIdsSize(0) {}
~EmitCoverIds() {}
};
//###################################################################### //######################################################################
// Emit statements and math operators // Emit statements and math operators
@ -74,8 +44,6 @@ private:
vector<AstVar*> m_ctorVarsVec; // All variables in constructor order vector<AstVar*> m_ctorVarsVec; // All variables in constructor order
int m_splitSize; // # of cfunc nodes placed into output file int m_splitSize; // # of cfunc nodes placed into output file
int m_splitFilenum; // File number being created, 0 = primary int m_splitFilenum; // File number being created, 0 = primary
public:
EmitCoverIds m_coverIds; // Coverage ID remapping
public: public:
//int debug() { return 9; } //int debug() { return 9; }
@ -222,8 +190,14 @@ public:
} }
virtual void visit(AstCoverDecl* nodep, AstNUser*) { virtual void visit(AstCoverDecl* nodep, AstNUser*) {
puts("__vlCoverInsert("); // As Declared in emitCoverageDecl puts("__vlCoverInsert("); // As Declared in emitCoverageDecl
puts("&__Vcoverage["); puts("&(vlSymsp->__Vcoverage[");
puts(cvtToStr(m_coverIds.remap(nodep))); puts("]"); puts(cvtToStr(nodep->binNum())); puts("])");
// If this isn't the first instantiation of this module under this
// design, don't really count the bucket, and rely on SystemPerl to
// aggregate counts. This is because Verilator combines all
// hiearchies itself, and if SystemPerl also did it, you'd end up
// with (number-of-instant) times too many counts in this bin.
puts(", first"); // Enable, passed from __Vconfigure parameter
puts(", \""); puts(nodep->fileline()->filename()); puts("\""); puts(", \""); puts(nodep->fileline()->filename()); puts("\"");
puts(", "); puts(cvtToStr(nodep->fileline()->lineno())); puts(", "); puts(cvtToStr(nodep->fileline()->lineno()));
puts(", "); puts(cvtToStr(nodep->column())); puts(", "); puts(cvtToStr(nodep->column()));
@ -233,8 +207,9 @@ public:
puts(");\n"); puts(");\n");
} }
virtual void visit(AstCoverInc* nodep, AstNUser*) { virtual void visit(AstCoverInc* nodep, AstNUser*) {
puts("++this->__Vcoverage["); puts("++(vlSymsp->__Vcoverage[");
puts(cvtToStr(m_coverIds.remap(nodep->declp()))); puts("];\n"); puts(cvtToStr(nodep->declp()->binNum()));
puts("]);\n");
} }
virtual void visit(AstCReturn* nodep, AstNUser*) { virtual void visit(AstCReturn* nodep, AstNUser*) {
puts("return ("); puts("return (");
@ -1221,18 +1196,10 @@ void EmitCImp::emitVarResets(AstModule* modp) {
} }
void EmitCImp::emitCoverageDecl(AstModule* modp) { void EmitCImp::emitCoverageDecl(AstModule* modp) {
m_coverIds.clear(); if (v3Global.opt.coverage()) {
for (AstNode* nodep=modp->stmtsp(); nodep; nodep = nodep->nextp()) {
if (AstCoverDecl* declp = nodep->castCoverDecl()) {
m_coverIds.remap(declp);
}
}
if (m_coverIds.size()) {
ofp()->putsPrivate(true); ofp()->putsPrivate(true);
puts("// Coverage\n"); puts("// Coverage\n");
puts("SpZeroed<uint32_t>\t__Vcoverage["); puts(cvtToStr(m_coverIds.size())); puts("];\n"); puts("void __vlCoverInsert(uint32_t* countp, bool enable, const char* filename, int lineno, int column,\n");
ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(uint32_t)*m_coverIds.size());
puts("void __vlCoverInsert(SpZeroed<uint32_t>* countp, const char* filename, int lineno, int column,\n");
puts( "const char* hier, const char* type, const char* comment);\n"); puts( "const char* hier, const char* type, const char* comment);\n");
} }
} }
@ -1258,8 +1225,9 @@ void EmitCImp::emitCtorImp(AstModule* modp) {
} }
void EmitCImp::emitConfigureImp(AstModule* modp) { void EmitCImp::emitConfigureImp(AstModule* modp) {
puts("\nvoid "+modClassName(modp)+"::__Vconfigure("+symClassName()+"* symsp) {\n"); puts("\nvoid "+modClassName(modp)+"::__Vconfigure("+symClassName()+"* vlSymsp, bool first) {\n");
puts( "__VlSymsp = symsp;\n"); // First, as later stuff needs it. puts( "if (0 && first) {} // Prevent unused\n");
puts( "this->__VlSymsp = vlSymsp;\n"); // First, as later stuff needs it.
bool first=true; bool first=true;
for (AstNode* nodep=modp->stmtsp(); nodep; nodep = nodep->nextp()) { for (AstNode* nodep=modp->stmtsp(); nodep; nodep = nodep->nextp()) {
if (nodep->castCoverDecl()) { if (nodep->castCoverDecl()) {
@ -1274,12 +1242,17 @@ void EmitCImp::emitConfigureImp(AstModule* modp) {
} }
void EmitCImp::emitCoverageImp(AstModule* modp) { void EmitCImp::emitCoverageImp(AstModule* modp) {
if (m_coverIds.size()) { if (v3Global.opt.coverage() ) {
puts("\n// Coverage\n"); puts("\n// Coverage\n");
// Rather than putting out SP_COVER_INSERT calls directly, we do it via this function // Rather than putting out SP_COVER_INSERT calls directly, we do it via this function
// This gets around gcc slowness constructing all of the template arguments // This gets around gcc slowness constructing all of the template arguments
puts("void "+modClassName(m_modp)+"::__vlCoverInsert(SpZeroed<uint32_t>* countp, const char* filename, int lineno, int column,\n"); // SystemPerl 1.301 is much faster, but it's nice to remain back
// compatible, and have a common wrapper.
puts("void "+modClassName(m_modp)+"::__vlCoverInsert(uint32_t* countp, bool enable, const char* filename, int lineno, int column,\n");
puts( "const char* hier, const char* type, const char* comment) {\n"); puts( "const char* hier, const char* type, const char* comment) {\n");
puts( "static uint32_t fake_zero_count = 0;\n");
puts( "if (!enable) countp = &fake_zero_count;\n"); // Used for second++ instantiation of identical bin
puts( "*countp = 0;\n");
puts( "SP_COVER_INSERT(countp,"); puts( "SP_COVER_INSERT(countp,");
puts( " \"filename\",filename,"); puts( " \"filename\",filename,");
puts( " \"lineno\",lineno,"); puts( " \"lineno\",lineno,");
@ -1602,7 +1575,7 @@ void EmitCImp::emitInt(AstModule* modp) {
if (v3Global.opt.trace() && !optSystemPerl()) { if (v3Global.opt.trace() && !optSystemPerl()) {
puts("void\ttrace (SpTraceVcdCFile* tfp, int levels, int options=0);\n"); puts("void\ttrace (SpTraceVcdCFile* tfp, int levels, int options=0);\n");
} }
puts("void\t__Vconfigure("+symClassName()+"* symsp);\n"); puts("void\t__Vconfigure("+symClassName()+"* symsp, bool first);\n");
if (optSystemPerl()) puts("/*AUTOMETHODS*/\n"); if (optSystemPerl()) puts("/*AUTOMETHODS*/\n");
emitTextSection(AstType::SCINT); emitTextSection(AstType::SCINT);

27
src/V3EmitCSyms.cpp
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@ -38,11 +38,17 @@
// Symbol table emitting // Symbol table emitting
class EmitCSyms : EmitCBaseVisitor { class EmitCSyms : EmitCBaseVisitor {
// NODE STATE
// Cleared on Netlist
// AstModule::user1() -> bool. Set true __Vconfigure called
AstUser1InUse m_inuser1;
// STATE // STATE
AstModule* m_modp; // Current module AstModule* m_modp; // Current module
typedef pair<AstScope*,AstModule*> ScopeModPair; typedef pair<AstScope*,AstModule*> ScopeModPair;
vector<ScopeModPair> m_scopes; // Every scope by module vector<ScopeModPair> m_scopes; // Every scope by module
V3LanguageWords m_words; // Reserved word detector V3LanguageWords m_words; // Reserved word detector
int m_coverBins; // Coverage bin number
// METHODS // METHODS
void emitInt(); void emitInt();
@ -70,6 +76,7 @@ class EmitCSyms : EmitCBaseVisitor {
// Sort m_scopes by scope name // Sort m_scopes by scope name
sort(m_scopes.begin(), m_scopes.end(), CmpName()); sort(m_scopes.begin(), m_scopes.end(), CmpName());
// Output // Output
emitInt(); emitInt();
emitImp(); emitImp();
@ -84,6 +91,10 @@ class EmitCSyms : EmitCBaseVisitor {
nameCheck(nodep); nameCheck(nodep);
m_scopes.push_back(make_pair(nodep, m_modp)); m_scopes.push_back(make_pair(nodep, m_modp));
} }
virtual void visit(AstCoverDecl* nodep, AstNUser*) {
// Assign numbers to all bins, so we know how big of an array to use
nodep->binNum(m_coverBins++);
}
// NOPs // NOPs
virtual void visit(AstNodeStmt*, AstNUser*) {} virtual void visit(AstNodeStmt*, AstNUser*) {}
virtual void visit(AstConst*, AstNUser*) {} virtual void visit(AstConst*, AstNUser*) {}
@ -97,6 +108,7 @@ class EmitCSyms : EmitCBaseVisitor {
public: public:
EmitCSyms(AstNetlist* nodep) { EmitCSyms(AstNetlist* nodep) {
m_modp = NULL; m_modp = NULL;
m_coverBins = 0;
nodep->accept(*this); nodep->accept(*this);
} }
}; };
@ -146,6 +158,12 @@ void EmitCSyms::emitInt() {
} }
} }
puts("\n// COVERAGE\n");
if (m_coverBins) {
ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(uint32_t));
puts("uint32_t\t__Vcoverage["); puts(cvtToStr(m_coverBins)); puts("];\n");
}
puts("\n// CREATORS\n"); puts("\n// CREATORS\n");
puts(symClassName()+"("+topClassName()+"* topp, const char* namep);\n"); puts(symClassName()+"("+topClassName()+"* topp, const char* namep);\n");
puts((string)"~"+symClassName()+"() {};\n"); puts((string)"~"+symClassName()+"() {};\n");
@ -216,11 +234,16 @@ void EmitCSyms::emitImp() {
} }
} }
puts("// Setup each module's pointer back to symbol table (for public functions)\n"); puts("// Setup each module's pointer back to symbol table (for public functions)\n");
puts("TOPp->__Vconfigure(this);\n"); puts("TOPp->__Vconfigure(this, true);\n");
for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) { for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) {
AstScope* scopep = it->first; AstModule* modp = it->second; AstScope* scopep = it->first; AstModule* modp = it->second;
if (!modp->isTop()) { if (!modp->isTop()) {
puts(scopep->nameDotless()+".__Vconfigure(this);\n"); // first is used by AstCoverDecl's call to __vlCoverInsert
bool first = !modp->user1();
modp->user1(true);
puts(scopep->nameDotless()+".__Vconfigure(this, "
+(first?"true":"false")
+");\n");
} }
} }

54
test_regress/driver.pl
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@ -229,7 +229,6 @@ sub new {
v_flags => [split(/\s+/,(" -f input.vc --debug-check" v_flags => [split(/\s+/,(" -f input.vc --debug-check"
.($opt_verbose ? " +define+TEST_VERBOSE=1":"") .($opt_verbose ? " +define+TEST_VERBOSE=1":"")
.($opt_benchmark ? " +define+TEST_BENCHMARK=$opt_benchmark":"") .($opt_benchmark ? " +define+TEST_BENCHMARK=$opt_benchmark":"")
." -Mdir $self->{obj_dir}"
))], ))],
v_flags2 => [], # Overridden in some sim files v_flags2 => [], # Overridden in some sim files
v_other_filenames => [], # After the filename so we can spec multiple files v_other_filenames => [], # After the filename so we can spec multiple files
@ -244,7 +243,8 @@ sub new {
ncrun_flags => [split(/\s+/,"+licqueue -q +assert +sv -R")], ncrun_flags => [split(/\s+/,"+licqueue -q +assert +sv -R")],
# Verilator # Verilator
'v3' => 0, 'v3' => 0,
verilator_flags => [split(/\s+/,"-cc")], verilator_flags => ["-cc",
"-Mdir $self->{obj_dir}"],
verilator_flags2 => [], verilator_flags2 => [],
verilator_make_gcc => 1, verilator_make_gcc => 1,
verilated_debug => $Opt_Verilated_Debug, verilated_debug => $Opt_Verilated_Debug,
@ -338,10 +338,14 @@ sub compile {
return 1 if $self->errors; return 1 if $self->errors;
$self->oprint("Compile\n"); $self->oprint("Compile\n");
$self->{sc} = 1 if (join(' ',@{$param{v_flags}},@{$param{v_flags2}}) =~ /-sc\b/); my $checkflags = join(' ',@{$param{v_flags}},
$self->{sp} = 1 if (join(' ',@{$param{v_flags}},@{$param{v_flags2}}) =~ /-sp\b/); @{$param{v_flags2}},
$self->{trace} = 1 if (join(' ',@{$param{v_flags}},@{$param{v_flags2}}) =~ /-trace\b/); @{$param{verilator_flags}},
$self->{coverage} = 1 if (join(' ',@{$param{v_flags}},@{$param{v_flags2}}) =~ /-coverage\b/); @{$param{verilator_flags2}});
$self->{sc} = 1 if ($checkflags =~ /-sc\b/);
$self->{sp} = 1 if ($checkflags =~ /-sp\b/);
$self->{trace} = 1 if ($checkflags =~ /-trace\b/);
$self->{coverage} = 1 if ($checkflags =~ /-coverage\b/);
if ($param{vcs}) { if ($param{vcs}) {
$self->_make_top(); $self->_make_top();
@ -466,6 +470,44 @@ sub execute {
} }
} }
sub inline_checks {
my $self = (ref $_[0]? shift : $Self);
return 1 if $self->errors;
my %param = (%{$self}, @_); # Default arguments are from $self
my $covfn = $Self->{coverage_filename};
my $contents = $self->file_contents($covfn);
$self->oprint("Extract checks\n");
my $fh = IO::File->new("<$self->{top_filename}");
while (defined(my $line = $fh->getline)) {
if ($line =~ /CHECK/) {
if ($line =~ /CHECK_COVER *\( *([---0-9]+) *, *"([^"]+)" *, *(\d+) *\)/) {
my $lineno=($. + $1); my $hier=$2; my $count=$3;
my $regexp = "\001l\002".$lineno;
$regexp .= ".*\001h\002".quotemeta($hier);
$regexp .= ".*' ".$count;
if ($contents !~ /$regexp/) {
$self->error("CHECK_COVER: $covfn: Regexp not found: $regexp\n".
"From $self->{top_filename}:$.: $line");
}
}
elsif ($line =~ /CHECK_COVER_MISSING *\( *([---0-9]+) *\)/) {
my $lineno=($. + $1);
my $regexp = "\001l\002".$lineno;
if ($contents =~ /$regexp/) {
$self->error("CHECK_COVER_MISSING: $covfn: Regexp found: $regexp\n".
"From $self->{top_filename}:$.: $line");
}
}
else {
$self->error("$self->{top_filename}:$.: Unknown CHECK request: $line");
}
}
}
$fh->close;
}
#---------------------------------------------------------------------- #----------------------------------------------------------------------
# Accessors # Accessors

21
test_regress/t/t_cover_line.pl Executable file
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@ -0,0 +1,21 @@
#!/usr/bin/perl
if (!$::Driver) { use FindBin; exec("$FindBin::Bin/bootstrap.pl", @ARGV, $0); die; }
# DESCRIPTION: Verilator: Verilog Test driver/expect definition
#
# Copyright 2003-2008 by Wilson Snyder. This program is free software; you can
# redistribute it and/or modify it under the terms of either the GNU
# General Public License or the Perl Artistic License.
compile (
verilator_flags2 => [$Self->{v3}?'--sp --coverage-line':''],
);
execute (
check_finished=>1,
);
# Read the input .v file and do any CHECK_COVER requests
inline_checks();
ok(1);
1;

136
test_regress/t/t_cover_line.v Normal file
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@ -0,0 +1,136 @@
// DESCRIPTION: Verilator: Verilog Test module
//
// This file ONLY is placed into the Public Domain, for any use,
// without warranty, 2008 by Wilson Snyder.
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
reg toggle; initial toggle=0;
integer cyc; initial cyc=1;
wire [7:0] cyc_copy = cyc[7:0];
alpha a1 (/*AUTOINST*/
// Inputs
.clk (clk),
.toggle (toggle));
alpha a2 (/*AUTOINST*/
// Inputs
.clk (clk),
.toggle (toggle));
beta b1 (/*AUTOINST*/
// Inputs
.clk (clk),
.toggle (toggle));
beta b2 (/*AUTOINST*/
// Inputs
.clk (clk),
.toggle (toggle));
tsk t1 (/*AUTOINST*/
// Inputs
.clk (clk),
.toggle (toggle));
always @ (posedge clk) begin
if (cyc!=0) begin
cyc <= cyc + 1;
toggle <= '0;
if (cyc==3) begin
toggle <= '1;
end
else if (cyc==5) begin
$c("call_task();");
end
else if (cyc==10) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
task call_task;
/* verilator public */
t1.center_task(1'b1);
endtask
endmodule
module alpha (/*AUTOARG*/
// Inputs
clk, toggle
);
input clk;
input toggle;
always @ (posedge clk) begin
if (toggle) begin
// CHECK_COVER(-1,"TOP.v.a*",2)
// t.a1 and t.a2 collapse to a count of 2
end
if (toggle) begin
// CHECK_COVER_MISSING(-1)
// This doesn't even get added
// verilator coverage_block_off
$write("");
end
end
endmodule
module beta (/*AUTOARG*/
// Inputs
clk, toggle
);
input clk;
input toggle;
/* verilator public_module */
always @ (posedge clk) begin
if (0) begin
// CHECK_COVER(-1,"TOP.v.b*",0)
// Make sure that we don't optimize away zero buckets
end
if (toggle) begin
// CHECK_COVER(-1,"TOP.v.b*",2)
// t.b1 and t.b2 collapse to a count of 2
end
if (toggle) begin
// CHECK_COVER_MISSING(-1)
// This doesn't
// verilator coverage_block_off
$write("");
end
end
endmodule
module tsk (/*AUTOARG*/
// Inputs
clk, toggle
);
input clk;
input toggle;
/* verilator public_module */
always @ (posedge clk) begin
center_task(1'b0);
end
task center_task;
input external;
begin
if (toggle) begin
// CHECK_COVER(-1,"TOP.v.t1",1)
end
if (external) begin
// CHECK_COVER(-1,"TOP.v.t1",1)
$write("[%0t] Got external pulse\n", $time);
end
end
endtask
endmodule