#!/usr/bin/perl -w require 5.003; $Source = ""; ############################################################################## # A map from type name to type letter. We use this map for two reasons: # 1. We want the debugging stuff in the source code to be as unobtrusive as # possible, which means as compact as possible. # 2. It's easier (faster) to parse these one and two-letter types in the C # functions that display debugging results. # # All type strings are one or two characters. One-character strings # are always lower case and should be used for common types. # Two-character strings begin with an upper-case letter which is # usually the same as the package name. # %TypeString = ("hbool_t" => "b", "double" => "d", "H5D_layout_t" => "Dl", "H5D_transfer_t" => "Dt", "herr_t" => "e", "H5E_direction_t" => "Ed", "H5E_error_t*" => "Ee", "H5G_link_t" => "Gl", "H5G_stat_t*" => "Gs", "hsize_t" => "h", "hssize_t" => "Hs", "hid_t" => "i", "int" => "Is", "unsigned" => "Iu", "unsigned int" => "Iu", "MPI_Comm" => "Mc", "MPI_Info" => "Mi", "off_t" => "o", "H5P_class_t" => "p", "char*" => "s", "H5T_cset_t", => "Tc", "H5T_norm_t" => "Tn", "H5T_order_t" => "To", "H5T_pad_t" => "Tp", "H5T_sign_t" => "Ts", "H5T_class_t" => "Tt", "H5T_str_t" => "Tz", "void*" => "x", "FILE*" => "x", "H5A_operator_t" => "x", "H5E_auto_t" => "x", "H5E_walk_t" => "x", "H5G_iterate_t" => "x", "H5T_conv_t" => "x", "H5Z_func_t" => "x", "size_t" => "z", "H5Z_method_t" => "Zm", "ssize_t" => "Zs", ); ############################################################################## # Print an error message. # sub errmesg ($$@) { my ($file, $func, @mesg) = @_; my ($mesg) = join "", @mesg; my ($lineno) = 1; if ($Source =~ /(.*?\n)($func)/s) { local $_ = $1; $lineno = tr/\n/\n/; } print "$file: in function \`$func\':\n"; print "$file:$lineno: $mesg\n"; } ############################################################################## # Given a C data type return the type string that goes with it. # sub argstring ($$$) { my ($file, $func, $atype) = @_; my ($ptr, $tstr) = (0,"!"); # Normalize the data type by removing redundant white space, # certain type qualifiers, and indirection. $atype =~ s/^\bconst\b//; $atype =~ s/\b__unused__\b//g; $atype =~ s/\s+/ /g; $ptr = length $1 if $atype =~ s/(\*+)//; $atype =~ s/^\s+//; $atype =~ s/\s+$//; if ($ptr>0 && exists $TypeString{"$atype*"}) { --$ptr; $tstr = $TypeString{"$atype*"}; } elsif (!exists $TypeString{$atype}) { errmesg $file, $func, "unknown type \`$atype", '*'x$ptr, "\'"; } else { $tstr = $TypeString{$atype}; } return ("*" x $ptr) . $tstr; } ############################################################################## # Given information about an API function, rewrite that function with # updated tracing information. # sub rewrite_func ($$$$$) { my ($file, $type, $name, $args, $body) = @_; my ($arg,$trace); my (@arg_name, @arg_str); local $_; # Parse return value my $rettype = argstring $file, $name, $type; goto error if $rettype =~ /!/; # Parse arguments if ($args eq "void") { $trace = "H5TRACE0(\"$rettype\", \"\");\n"; } else { my @args = split /,[\s\n]*/, $args; for $arg (@args) { unless ($arg=~/^(([a-z_A-Z]\w*\s+)+\**) ([a-z_A-Z]\w*)(\[\])? (\s*\/\*\s*(in|out|in,\s*out)\s*\*\/)?\s*$/x) { errmesg $file, $name, "unable to parse \`$arg\'"; goto error; } else { my ($atype, $aname, $array, $adir) = ($1, $3, $4, $6); $adir ||= "in"; next if $adir eq "out"; $atype =~ s/\s+$//; $atype .= "*" if $array; push @arg_name, $aname; push @arg_str, argstring $file, $name, $atype; } } $trace = "H5TRACE" . scalar(@arg_str) . "(\"$rettype\",\""; $trace .= join("", @arg_str) . "\""; my $len = 4 + length $trace; for (@arg_name) { if ($len + length >= 78) { $trace .= ",\n $_"; $len = 13 + length; } else { $trace .= ",$_"; $len += 1 + length; } } $trace .= ");\n"; } goto error if grep {/!/} @arg_str; # The H5TRACE() statement if ($body =~ /\/\*[ \t]*NO[ \t]*TRACE[ \t]*\*\//) { if ($body =~ /\s*H5TRACE\d+\s*\(/) { errmesg $file, $name, "warning: trace info was not updated"; } else { errmesg $file, $name, "warning: trace info was not inserted"; } } elsif ($body =~ s/((\n[ \t]*)H5TRACE\d+\s*\(.*?\);)\n/"$2$trace"/es) { # Replaced an H5TRACE macro } elsif ($body=~s/((\n[ \t]*)FUNC_ENTER\s*\(.*?\);)\n/"$1$2$trace"/es) { # Added an H5TRACE macro after a FUNC_ENTER macro. } else { errmesg $file, $name, "unable to insert tracing information"; print "body=\n>>>>>", $body, "<<<<<\n"; goto error; } error: return "\n$type\n$name ($args)$body"; } ############################################################################## # Process each source file, rewriting API functions with updated # tracing information. # my $total_api = 0; for $file (@ARGV) { # Snarf up the entire file open SOURCE, $file or die "$file: $!\n"; $Source = join "", ; close SOURCE; # Make modifications my $original = $Source; my $napi = $Source =~ s/\n([a-z]\w*(\s+[a-z]\w*)*)\s*\n #type (H5[A-Z]{1,2}[^_A-Z]\w*) #name \s*\((.*?)\) #args (.*?\n\}[^\n]*) #body /rewrite_func($file,$1,$3,$4,$5)/segx; $total_api += $napi; # If the source changed then print out the new version if ($original ne $Source) { printf "%s: instrumented %d API function%s\n", $file, $napi, 1==$napi?"":"s"; rename $file, "$file~" or die "unable to make backup"; open SOURCE, ">$file" or die "unable to modify source"; print SOURCE $Source; close SOURCE; } }