URL
https://opencores.org/ocsvn/uart2bus_testbench/uart2bus_testbench/trunk
Subversion Repositories uart2bus_testbench
[/] [uart2bus_testbench/] [trunk/] [tb/] [uvm_src/] [base/] [uvm_printer.svh] - Rev 16
Compare with Previous | Blame | View Log
//
//------------------------------------------------------------------------------
// Copyright 2007-2011 Mentor Graphics Corporation
// Copyright 2007-2011 Cadence Design Systems, Inc.
// Copyright 2010 Synopsys, Inc.
// All Rights Reserved Worldwide
//
// Licensed under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of
// the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in
// writing, software distributed under the License is
// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
// CONDITIONS OF ANY KIND, either express or implied. See
// the License or the specific language governing
// permissions and limitations under the License.
//------------------------------------------------------------------------------
typedef class uvm_printer_knobs;
parameter UVM_STDOUT = 1; // Writes to standard out and logfile
typedef struct {
int level;
string name;
string type_name;
string size;
string val;
} uvm_printer_row_info;
//------------------------------------------------------------------------------
//
// Class: uvm_printer
//
// The uvm_printer class provides an interface for printing <uvm_objects> in
// various formats. Subtypes of uvm_printer implement different print formats,
// or policies.
//
// A user-defined printer format can be created, or one of the following four
// built-in printers can be used:
//
// - <uvm_printer> - provides base printer functionality; must be overridden.
//
// - <uvm_table_printer> - prints the object in a tabular form.
//
// - <uvm_tree_printer> - prints the object in a tree form.
//
// - <uvm_line_printer> - prints the information on a single line, but uses the
// same object separators as the tree printer.
//
// Printers have knobs that you use to control what and how information is printed.
// These knobs are contained in a separate knob class:
//
// - <uvm_printer_knobs> - common printer settings
//
// For convenience, global instances of each printer type are available for
// direct reference in your testbenches.
//
// - <uvm_default_tree_printer>
// - <uvm_default_line_printer>
// - <uvm_default_table_printer>
// - <uvm_default_printer> (set to default_table_printer by default)
//
// When <uvm_object::print> and <uvm_object::sprint> are called without
// specifying a printer, the <uvm_default_printer> is used.
//
//------------------------------------------------------------------------------
virtual class uvm_printer;
// Variable: knobs
//
// The knob object provides access to the variety of knobs associated with a
// specific printer instance.
//
uvm_printer_knobs knobs = new;
// Group: Methods for printer usage
// These functions are called from <uvm_object::print>, or they are called
// directly on any data to get formatted printing.
// Function: print_field
//
// Prints an integral field (up to 4096 bits).
//
// name - The name of the field.
// value - The value of the field.
// size - The number of bits of the field (maximum is 4096).
// radix - The radix to use for printing. The printer knob for radix is used
// if no radix is specified.
// scope_separator - is used to find the leaf name since many printers only
// print the leaf name of a field. Typical values for the separator
// are . (dot) or [ (open bracket).
extern virtual function void print_field (string name,
uvm_bitstream_t value,
int size,
uvm_radix_enum radix=UVM_NORADIX,
byte scope_separator=".",
string type_name="");
// backward compatibility
virtual function void print_int (string name,
uvm_bitstream_t value,
int size,
uvm_radix_enum radix=UVM_NORADIX,
byte scope_separator=".",
string type_name="");
print_field (name, value, size, radix, scope_separator, type_name);
endfunction
// Function: print_field_int
//
// Prints an integral field (up to 64 bits).
//
// name - The name of the field.
// value - The value of the field.
// size - The number of bits of the field (maximum is 64).
// radix - The radix to use for printing. The printer knob for radix is used
// if no radix is specified.
// scope_separator - is used to find the leaf name since many printers only
// print the leaf name of a field. Typical values for the separator
// are . (dot) or [ (open bracket).
extern virtual function void print_field_int (string name,
uvm_integral_t value,
int size,
uvm_radix_enum radix=UVM_NORADIX,
byte scope_separator=".",
string type_name="");
// Function: print_object
//
// Prints an object. Whether the object is recursed depends on a variety of
// knobs, such as the depth knob; if the current depth is at or below the
// depth setting, then the object is not recursed.
//
// By default, the children of <uvm_components> are printed. To turn this
// behavior off, you must set the <uvm_component::print_enabled> bit to 0 for
// the specific children you do not want automatically printed.
extern virtual function void print_object (string name,
uvm_object value,
byte scope_separator=".");
extern virtual function void print_object_header (string name,
uvm_object value,
byte scope_separator=".");
// Function: print_string
//
// Prints a string field.
extern virtual function void print_string (string name,
string value,
byte scope_separator=".");
// Function: print_time
//
// Prints a time value. name is the name of the field, and value is the
// value to print.
//
// The print is subject to the ~$timeformat~ system task for formatting time
// values.
extern virtual function void print_time (string name,
time value,
byte scope_separator=".");
// Function: print_real
//
// Prints a real field.
extern virtual function void print_real (string name,
real value,
byte scope_separator=".");
// Function: print_generic
//
// Prints a field having the given ~name~, ~type_name~, ~size~, and ~value~.
extern virtual function void print_generic (string name,
string type_name,
int size,
string value,
byte scope_separator=".");
// Group: Methods for printer subtyping
// Function: emit
//
// Emits a string representing the contents of an object
// in a format defined by an extension of this object.
//
extern virtual function string emit ();
// Function: format_row
//
// Hook for producing custom output of a single field (row).
//
extern virtual function string format_row (uvm_printer_row_info row);
// Function: format_header
//
// Hook to override base header with a custom header.
virtual function string format_header();
return "";
endfunction
// Function: format_footer
//
// Hook to override base footer with a custom footer.
virtual function string format_footer();
return "";
endfunction
// Function: adjust_name
//
// Prints a field's name, or ~id~, which is the full instance name.
//
// The intent of the separator is to mark where the leaf name starts if the
// printer if configured to print only the leaf name of the identifier.
extern virtual protected function string adjust_name (string id,
byte scope_separator=".");
// Function: print_array_header
//
// Prints the header of an array. This function is called before each
// individual element is printed. <print_array_footer> is called to mark the
// completion of array printing.
extern virtual function void print_array_header(string name,
int size,
string arraytype="array",
byte scope_separator=".");
// Function: print_array_range
//
// Prints a range using ellipses for values. This method is used when honoring
// the array knobs for partial printing of large arrays,
// <uvm_printer_knobs::begin_elements> and <uvm_printer_knobs::end_elements>.
//
// This function should be called after begin_elements have been printed
// and before end_elements have been printed.
extern virtual function void print_array_range (int min, int max);
// Function: print_array_footer
//
// Prints the header of a footer. This function marks the end of an array
// print. Generally, there is no output associated with the array footer, but
// this method let's the printer know that the array printing is complete.
extern virtual function void print_array_footer (int size = 0);
// Utility methods
extern function bit istop ();
extern function string index_string (int index, string name="");
protected bit m_array_stack[$];
uvm_scope_stack m_scope = new;
string m_string;
// holds each cell entry
protected uvm_printer_row_info m_rows[$];
endclass
//------------------------------------------------------------------------------
//
// Class: uvm_table_printer
//
// The table printer prints output in a tabular format.
//
// The following shows sample output from the table printer.
//
//| ---------------------------------------------------
//| Name Type Size Value
//| ---------------------------------------------------
//| c1 container - @1013
//| d1 mydata - @1022
//| v1 integral 32 'hcb8f1c97
//| e1 enum 32 THREE
//| str string 2 hi
//| value integral 12 'h2d
//| ---------------------------------------------------
//
//------------------------------------------------------------------------------
class uvm_table_printer extends uvm_printer;
// Variable: new
//
// Creates a new instance of ~uvm_table_printer~.
//
extern function new();
// Function: emit
//
// Formats the collected information from prior calls to ~print_*~
// into table format.
//
extern virtual function string emit();
// Variables- m_max_*
//
// holds max size of each column, so table columns can be resized dynamically
protected int m_max_name;
protected int m_max_type;
protected int m_max_size;
protected int m_max_value;
extern function void calculate_max_widths();
endclass
//------------------------------------------------------------------------------
//
// Class: uvm_tree_printer
//
// By overriding various methods of the <uvm_printer> super class,
// the tree printer prints output in a tree format.
//
// The following shows sample output from the tree printer.
//
//| c1: (container@1013) {
//| d1: (mydata@1022) {
//| v1: 'hcb8f1c97
//| e1: THREE
//| str: hi
//| }
//| value: 'h2d
//| }
//
//------------------------------------------------------------------------------
class uvm_tree_printer extends uvm_printer;
string newline = "\n";
// Variable: new
//
// Creates a new instance of ~uvm_tree_printer~.
extern function new();
// Function: emit
//
// Formats the collected information from prior calls to ~print_*~
// into hierarchical tree format.
//
extern virtual function string emit();
endclass
//------------------------------------------------------------------------------
//
// Class: uvm_line_printer
//
// The line printer prints output in a line format.
//
// The following shows sample output from the line printer.
//
//| c1: (container@1013) { d1: (mydata@1022) { v1: 'hcb8f1c97 e1: THREE str: hi } value: 'h2d }
//------------------------------------------------------------------------------
class uvm_line_printer extends uvm_tree_printer;
// Variable: new
//
// Creates a new instance of ~uvm_line_printer~. It differs from the
// <uvm_tree_printer> only in that the output contains no line-feeds
// and indentation.
function new();
newline = " ";
knobs.indent = 0;
endfunction
endclass
//------------------------------------------------------------------------------
//
// Class: uvm_printer_knobs
//
// The ~uvm_printer_knobs~ class defines the printer settings available to all
// printer subtypes.
//
//------------------------------------------------------------------------------
class uvm_printer_knobs;
// Variable: header
//
// Indicates whether the <uvm_printer::format_header> function should be called when
// printing an object.
bit header = 1;
// Variable: footer
//
// Indicates whether the <uvm_printer::format_footer> function should be called when
// printing an object.
bit footer = 1;
// Variable: full_name
//
// Indicates whether <uvm_printer::adjust_name> should print the full name of an identifier
// or just the leaf name.
bit full_name = 0;
// Variable: identifier
//
// Indicates whether <uvm_printer::adjust_name> should print the identifier. This is useful
// in cases where you just want the values of an object, but no identifiers.
bit identifier = 1;
// Variable: type_name
//
// Controls whether to print a field's type name.
bit type_name = 1;
// Variable: size
//
// Controls whether to print a field's size.
bit size = 1;
// Variable: depth
//
// Indicates how deep to recurse when printing objects.
// A depth of -1 means to print everything.
int depth = -1;
// Variable: reference
//
// Controls whether to print a unique reference ID for object handles.
// The behavior of this knob is simulator-dependent.
bit reference = 1;
// Variable: begin_elements
//
// Defines the number of elements at the head of a list to print.
// Use -1 for no max.
int begin_elements = 5;
// Variable: end_elements
//
// This defines the number of elements at the end of a list that
// should be printed.
int end_elements = 5;
// Variable: prefix
//
// Specifies the string prepended to each output line
string prefix = "";
// Variable: indent
//
// This knob specifies the number of spaces to use for level indentation.
// The default level indentation is two spaces.
int indent = 2;
// Variable: show_root
//
// This setting indicates whether or not the initial object that is printed
// (when current depth is 0) prints the full path name. By default, the first
// object is treated like all other objects and only the leaf name is printed.
bit show_root = 0;
// Variable: mcd
//
// This is a file descriptor, or multi-channel descriptor, that specifies
// where the print output should be directed.
//
// By default, the output goes to the standard output of the simulator.
int mcd = UVM_STDOUT;
// Variable: separator
//
// For tree printers only, determines the opening and closing
// separators used for nested objects.
string separator = "{}";
// Variable: show_radix
//
// Indicates whether the radix string ('h, and so on) should be prepended to
// an integral value when one is printed.
bit show_radix = 1;
// Variable: default_radix
//
// This knob sets the default radix to use for integral values when no radix
// enum is explicitly supplied to the <uvm_printer::print_field> or
// <uvm_printer::print_field_int> methods.
uvm_radix_enum default_radix = UVM_HEX;
// Variable: dec_radix
//
// This string should be prepended to the value of an integral type when a
// radix of <UVM_DEC> is used for the radix of the integral object.
//
// When a negative number is printed, the radix is not printed since only
// signed decimal values can print as negative.
string dec_radix = "'d";
// Variable: bin_radix
//
// This string should be prepended to the value of an integral type when a
// radix of <UVM_BIN> is used for the radix of the integral object.
string bin_radix = "'b";
// Variable: oct_radix
//
// This string should be prepended to the value of an integral type when a
// radix of <UVM_OCT> is used for the radix of the integral object.
string oct_radix = "'o";
// Variable: unsigned_radix
//
// This is the string which should be prepended to the value of an integral
// type when a radix of <UVM_UNSIGNED> is used for the radix of the integral
// object.
string unsigned_radix = "'d";
// Variable: hex_radix
//
// This string should be prepended to the value of an integral type when a
// radix of <UVM_HEX> is used for the radix of the integral object.
string hex_radix = "'h";
// Function: get_radix_str
//
// Converts the radix from an enumerated to a printable radix according to
// the radix printing knobs (bin_radix, and so on).
function string get_radix_str(uvm_radix_enum radix);
if(show_radix == 0)
return "";
if(radix == UVM_NORADIX)
radix = default_radix;
case(radix)
UVM_BIN: return bin_radix;
UVM_OCT: return oct_radix;
UVM_DEC: return dec_radix;
UVM_HEX: return hex_radix;
UVM_UNSIGNED: return unsigned_radix;
default: return "";
endcase
endfunction
// Deprecated knobs, hereafter ignored
int max_width = 999;
string truncation = "+";
int name_width = -1;
int type_width = -1;
int size_width = -1;
int value_width = -1;
bit sprint = 1;
endclass
typedef uvm_printer_knobs uvm_table_printer_knobs;
typedef uvm_printer_knobs uvm_tree_printer_knobs;
//------------------------------------------------------------------------------
// IMPLEMENTATION
//------------------------------------------------------------------------------
// emit
// ----
function string uvm_printer::emit ();
`uvm_error("NO_OVERRIDE","emit() method not overridden in printer subtype")
return "";
endfunction
// format_row
// ----------
function string uvm_printer::format_row (uvm_printer_row_info row);
return "";
endfunction
// print_array_header
// ------------------
function void uvm_printer::print_array_header (string name,
int size,
string arraytype="array",
byte scope_separator=".");
uvm_printer_row_info row_info;
if(name != "")
m_scope.set_arg(name);
row_info.level = m_scope.depth();
row_info.name = adjust_name(m_scope.get(),scope_separator);
row_info.type_name = arraytype;
row_info.size = $sformatf("%0d",size);
row_info.val = "-";
m_rows.push_back(row_info);
m_scope.down(name);
m_array_stack.push_back(1);
endfunction
// print_array_footer
// ------------------
function void uvm_printer::print_array_footer (int size=0);
if(m_array_stack.size()) begin
m_scope.up();
void'(m_array_stack.pop_front());
end
endfunction
// print_array_range
// -----------------
function void uvm_printer::print_array_range(int min, int max);
string tmpstr;
if(min == -1 && max == -1)
return;
if(min == -1)
min = max;
if(max == -1)
max = min;
if(max < min)
return;
print_generic("...", "...", -2, "...");
endfunction
// print_object_header
// -------------------
function void uvm_printer::print_object_header (string name,
uvm_object value,
byte scope_separator=".");
uvm_printer_row_info row_info;
uvm_component comp;
if(name == "") begin
if(value!=null) begin
if((m_scope.depth()==0) && $cast(comp, value)) begin
name = comp.get_full_name();
end
else begin
name=value.get_name();
end
end
end
if(name == "")
name = "<unnamed>";
m_scope.set_arg(name);
row_info.level = m_scope.depth();
if(row_info.level == 0 && knobs.show_root==1)
row_info.name = value.get_full_name();
else
row_info.name = adjust_name(m_scope.get(),scope_separator);
row_info.type_name = (value != null) ? value.get_type_name() : "object";
row_info.size = "-";
row_info.val = knobs.reference ? uvm_object_value_str(value) : "-";
m_rows.push_back(row_info);
endfunction
// print_object
// ------------
function void uvm_printer::print_object (string name, uvm_object value,
byte scope_separator=".");
uvm_component comp, child_comp;
print_object_header(name,value,scope_separator);
if(value != null) begin
if((knobs.depth == -1 || (knobs.depth > m_scope.depth())) &&
!value.__m_uvm_status_container.cycle_check.exists(value)) begin
value.__m_uvm_status_container.cycle_check[value] = 1;
if(name=="" && value!=null)
m_scope.down(value.get_name());
else
m_scope.down(name);
//Handle children of the comp
if($cast(comp, value)) begin
string name;
if (comp.get_first_child(name))
do begin
child_comp = comp.get_child(name);
if(child_comp.print_enabled)
this.print_object("",child_comp);
end while (comp.get_next_child(name));
end
// print members of object
void'(value.sprint(this));
if(name != "" && name[0] == "[")
m_scope.up("[");
else
m_scope.up(".");
value.__m_uvm_status_container.cycle_check.delete(value);
end
end
endfunction
// istop
// -----
function bit uvm_printer::istop ();
return (m_scope.depth() == 0);
endfunction
// adjust_name
// -----------
function string uvm_printer::adjust_name(string id, byte scope_separator=".");
if (knobs.show_root && m_scope.depth()==0 || knobs.full_name || id == "...")
return id;
return uvm_leaf_scope(id, scope_separator);
endfunction
// print_generic
// -------------
function void uvm_printer::print_generic (string name,
string type_name,
int size,
string value,
byte scope_separator=".");
uvm_printer_row_info row_info;
if (name != "" && name != "...") begin
m_scope.set_arg(name);
name = m_scope.get();
end
row_info.level = m_scope.depth();
row_info.name = adjust_name(name,scope_separator);
row_info.type_name = type_name;
row_info.size = (size == -2 ? "..." : $sformatf("%0d",size));
row_info.val = (value == "" ? "\"\"" : value);
m_rows.push_back(row_info);
endfunction
// print_field
// ---------
function void uvm_printer::print_field (string name,
uvm_bitstream_t value,
int size,
uvm_radix_enum radix=UVM_NORADIX,
byte scope_separator=".",
string type_name="");
uvm_printer_row_info row_info;
string sz_str, val_str;
if(name != "") begin
m_scope.set_arg(name);
name = m_scope.get();
end
if(type_name == "") begin
if(radix == UVM_TIME)
type_name ="time";
else if(radix == UVM_STRING)
type_name ="string";
else
type_name ="integral";
end
sz_str.itoa(size);
if(radix == UVM_NORADIX)
radix = knobs.default_radix;
val_str = uvm_bitstream_to_string (value, size, radix,
knobs.get_radix_str(radix));
row_info.level = m_scope.depth();
row_info.name = adjust_name(name,scope_separator);
row_info.type_name = type_name;
row_info.size = sz_str;
row_info.val = val_str;
m_rows.push_back(row_info);
endfunction
// print_field_int
// ---------
function void uvm_printer::print_field_int (string name,
uvm_integral_t value,
int size,
uvm_radix_enum radix=UVM_NORADIX,
byte scope_separator=".",
string type_name="");
uvm_printer_row_info row_info;
string sz_str, val_str;
if(name != "") begin
m_scope.set_arg(name);
name = m_scope.get();
end
if(type_name == "") begin
if(radix == UVM_TIME)
type_name ="time";
else if(radix == UVM_STRING)
type_name ="string";
else
type_name ="integral";
end
sz_str.itoa(size);
if(radix == UVM_NORADIX)
radix = knobs.default_radix;
val_str = uvm_integral_to_string (value, size, radix,
knobs.get_radix_str(radix));
row_info.level = m_scope.depth();
row_info.name = adjust_name(name,scope_separator);
row_info.type_name = type_name;
row_info.size = sz_str;
row_info.val = val_str;
m_rows.push_back(row_info);
endfunction
// print_time
// ----------
function void uvm_printer::print_time (string name,
time value,
byte scope_separator=".");
print_field_int(name, value, 64, UVM_TIME, scope_separator);
endfunction
// print_string
// ------------
function void uvm_printer::print_string (string name,
string value,
byte scope_separator=".");
uvm_printer_row_info row_info;
if(name != "")
m_scope.set_arg(name);
row_info.level = m_scope.depth();
row_info.name = adjust_name(m_scope.get(),scope_separator);
row_info.type_name = "string";
row_info.size = $sformatf("%0d",value.len());
row_info.val = (value == "" ? "\"\"" : value);
m_rows.push_back(row_info);
endfunction
// print_real
// ----------
function void uvm_printer::print_real (string name,
real value,
byte scope_separator=".");
uvm_printer_row_info row_info;
if (name != "" && name != "...") begin
m_scope.set_arg(name);
name = m_scope.get();
end
row_info.level = m_scope.depth();
row_info.name = adjust_name(m_scope.get(),scope_separator);
row_info.type_name = "real";
row_info.size = "64";
row_info.val = $sformatf("%f",value);
m_rows.push_back(row_info);
endfunction
// index_string
// ------------
function string uvm_printer::index_string(int index, string name="");
index_string.itoa(index);
index_string = { name, "[", index_string, "]" };
endfunction
//------------------------------------------------------------------------------
// Class- uvm_table_printer
//------------------------------------------------------------------------------
// new
// ---
function uvm_table_printer::new();
super.new();
endfunction
// calculate_max_widths
// --------------------
function void uvm_table_printer::calculate_max_widths();
m_max_name=4;
m_max_type=4;
m_max_size = 4;
m_max_value= 5;
foreach(m_rows[j]) begin
int name_len;
uvm_printer_row_info row = m_rows[j];
name_len = knobs.indent*row.level + row.name.len();
if (name_len > m_max_name)
m_max_name = name_len;
if (row.type_name.len() > m_max_type)
m_max_type = row.type_name.len();
if (row.size.len() > m_max_size)
m_max_size = row.size.len();
if (row.val.len() > m_max_value)
m_max_value = row.val.len();
end
endfunction
// emit
// ----
function string uvm_table_printer::emit();
string s;
string user_format;
static string dash; // = "---------------------------------------------------------------------------------------------------";
static string space; //= " ";
string dashes;
string linefeed = {"\n", knobs.prefix};
calculate_max_widths();
begin
int q[5];
int m;
int qq[$];
q = '{m_max_name,m_max_type,m_max_size,m_max_value,100};
qq = q.max;
m = qq[0];
if(dash.len()<m) begin
dash = {m{"-"}};
space = {m{" "}};
end
end
if (knobs.header) begin
string header;
user_format = format_header();
if (user_format == "") begin
string dash_id, dash_typ, dash_sz;
string head_id, head_typ, head_sz;
if (knobs.identifier) begin
dashes = {dash.substr(1,m_max_name+2)};
header = {"Name",space.substr(1,m_max_name-2)};
end
if (knobs.type_name) begin
dashes = {dashes, dash.substr(1,m_max_type+2)};
header = {header, "Type",space.substr(1,m_max_type-2)};
end
if (knobs.size) begin
dashes = {dashes, dash.substr(1,m_max_size+2)};
header = {header, "Size",space.substr(1,m_max_size-2)};
end
dashes = {dashes, dash.substr(1,m_max_value), linefeed};
header = {header, "Value", space.substr(1,m_max_value-5), linefeed};
s = {s, dashes, header, dashes};
end
else begin
s = {s, user_format, linefeed};
end
end
foreach (m_rows[i]) begin
uvm_printer_row_info row = m_rows[i];
user_format = format_row(row);
if (user_format == "") begin
string row_str;
if (knobs.identifier)
row_str = {space.substr(1,row.level * knobs.indent), row.name,
space.substr(1,m_max_name-row.name.len()-(row.level*knobs.indent)+2)};
if (knobs.type_name)
row_str = {row_str, row.type_name, space.substr(1,m_max_type-row.type_name.len()+2)};
if (knobs.size)
row_str = {row_str, row.size, space.substr(1,m_max_size-row.size.len()+2)};
s = {s, row_str, row.val, space.substr(1,m_max_value-row.val.len()), linefeed};
end
else
s = {s, user_format, linefeed};
end
if (knobs.footer) begin
user_format = format_footer();
if (user_format == "")
s = {s, dashes};
else
s = {s, user_format, linefeed};
end
emit = {knobs.prefix, s};
m_rows.delete();
endfunction
//------------------------------------------------------------------------------
// Class- uvm_tree_printer
//------------------------------------------------------------------------------
// new
// ---
function uvm_tree_printer::new();
super.new();
knobs.size = 0;
knobs.type_name = 0;
knobs.header = 0;
knobs.footer = 0;
endfunction
// emit
// ----
function string uvm_tree_printer::emit();
string s = knobs.prefix;
string space= " ";
string user_format;
string linefeed = newline == "" || newline == " " ? newline : {newline, knobs.prefix};
// Header
if (knobs.header) begin
user_format = format_header();
if (user_format != "")
s = {s, user_format, linefeed};
end
foreach (m_rows[i]) begin
uvm_printer_row_info row = m_rows[i];
user_format = format_row(row);
if (user_format == "") begin
string indent_str;
indent_str = space.substr(1,row.level * knobs.indent);
// Name (id)
if (knobs.identifier) begin
s = {s,indent_str, row.name};
if (row.name != "" && row.name != "...")
s = {s, ": "};
end
// Type Name
if (row.val[0] == "@") // is an object w/ knobs.reference on
s = {s,"(",row.type_name,row.val,") "};
else
if (knobs.type_name &&
(row.type_name != "" ||
row.type_name != "-" ||
row.type_name != "..."))
s = {s,"(",row.type_name,") "};
// Size
if (knobs.size) begin
if (row.size != "" || row.size != "-")
s = {s,"(",row.size,") "};
end
if (i < m_rows.size()-1) begin
if (m_rows[i+1].level > row.level) begin
s = {s, string'(knobs.separator[0]), linefeed};
continue;
end
end
// Value (unconditional)
s = {s, row.val, " ", linefeed};
// Scope handling...
if (i <= m_rows.size()-1) begin
int end_level;
if (i == m_rows.size()-1)
end_level = 0;
else
end_level = m_rows[i+1].level;
if (end_level < row.level) begin
string indent_str;
for (int l=row.level-1; l >= end_level; l--) begin
indent_str = space.substr(1,l * knobs.indent);
s = {s, indent_str, string'(knobs.separator[1]), linefeed};
end
end
end
end
else
s = {s, user_format};
end
// Footer
if (knobs.footer) begin
user_format = format_footer();
if (user_format != "")
s = {s, user_format, linefeed};
end
if (newline == "" || newline == " ")
s = {s, "\n"};
emit = s;
m_rows.delete();
endfunction