pkg/compiler/tool/szcmp - sdk.git - Git at Google

 #!/bin/bash
 # Copyright (c) 2022, the Dart project authors.  Please see the AUTHORS file
 # for details. All rights reserved. Use of this source code is governed by a
 # BSD-style license that can be found in the LICENSE file.
 #
 # Usage: szcmp files
 #
 # Compare sizes of files as percentages in a table.  Column header is the
 # baseline (i.e. all sizes in the column are in terms of the file in the column
 # header).
 #
 # Example with dart2js workflow:
 #
 #     $ dart2js  ...  --out=v1/m.js
 #     # change dart2js
 #     $ dart2js  ...  --out=v2/m.js
 #     # change dart2js again
 #     $ dart2js  ...  --out=v3/m.js
 #
 #     $ szcmp v?/m.js
 #                       v1/m.js  v2/m.js  v3/m.js
 #     5793879  v1/m.js        =  -4.499%  +4.461%
 #     6066812  v2/m.js  +4.711%        =  +9.382%
 #     5546433  v3/m.js  -4.271%  -8.577%        =
 #
 # The first column of the matrix is usually the most relevant - `v2` is 4.7%
 # larger than `v1` and `v3` is 4.2% smaller than `v1`. The other columns can be
 # useful for understanding the differential changes. Sizes relative to `v2` are
 # in the next column, e.g. the step from `v2` to `v3` was a reduction of
 # 8.6%. Above-diagonal values show the percentage change in the 'undo'
 # direction. While changing from `v2` to `v3` reduces by 8.6%, reverting that
 # change would be an increase of 9.4%.

 wc -c "$@" |
 awk '
 $2 == "total" { next; }

 {
   N++
   r[N,0] = $1;
   r[N,1] = $2;
 }

 END {
   r[0,0] = ""  # header col 0
   r[0,1] = ""  # header col 1

   for (i = 1; i <= N; i++) { #skips "total" line
     r[0, i+1] = r[i,1]  # name header

     for (j = 1; j <= N; j++) {
       s1 = r[i,0]
       s2 = r[j,0];
       if (s1 == s2) {
         r[i, j+1] = "="
       } else {
         x = sprintf("%.3f%%", (s1 - s2) / s2 * 100)
         if (s1 > s2) x = "+" x
         r[i, j+1] = x
       }
     }
   }

   # find column widths
   for (cc = 0; cc <= N+1; cc++) {
     w[cc] = 0;
     for (rr = 0; rr <= N; rr++) {
       if (length(r[rr,cc]) > w[cc]) w[cc] = length(r[rr,cc])
     }
   }

   for (rr = 0; rr <= N; rr++) {
     line = ""
     sep = ""
     for (cc = 0; cc <= N+1; cc++) {
       line = line sep sprintf("%*s", w[cc], r[rr, cc])
       sep = "  "
     }
     print line
   }
 }
 '
	#!/bin/bash
	# Copyright (c) 2022, the Dart project authors. Please see the AUTHORS file
	# for details. All rights reserved. Use of this source code is governed by a
	# BSD-style license that can be found in the LICENSE file.
	#
	# Usage: szcmp files
	#
	# Compare sizes of files as percentages in a table. Column header is the
	# baseline (i.e. all sizes in the column are in terms of the file in the column
	# header).
	#
	# Example with dart2js workflow:
	#
	# $ dart2js ... --out=v1/m.js
	# # change dart2js
	# $ dart2js ... --out=v2/m.js
	# # change dart2js again
	# $ dart2js ... --out=v3/m.js
	#
	# $ szcmp v?/m.js
	# v1/m.js v2/m.js v3/m.js
	# 5793879 v1/m.js = -4.499% +4.461%
	# 6066812 v2/m.js +4.711% = +9.382%
	# 5546433 v3/m.js -4.271% -8.577% =
	#
	# The first column of the matrix is usually the most relevant - `v2` is 4.7%
	# larger than `v1` and `v3` is 4.2% smaller than `v1`. The other columns can be
	# useful for understanding the differential changes. Sizes relative to `v2` are
	# in the next column, e.g. the step from `v2` to `v3` was a reduction of
	# 8.6%. Above-diagonal values show the percentage change in the 'undo'
	# direction. While changing from `v2` to `v3` reduces by 8.6%, reverting that
	# change would be an increase of 9.4%.

	wc -c "$@" \|
	awk '
	$2 == "total" { next; }

	{
	N++
	r[N,0] = $1;
	r[N,1] = $2;
	}

	END {
	r[0,0] = "" # header col 0
	r[0,1] = "" # header col 1

	for (i = 1; i <= N; i++) { #skips "total" line
	r[0, i+1] = r[i,1] # name header

	for (j = 1; j <= N; j++) {
	s1 = r[i,0]
	s2 = r[j,0];
	if (s1 == s2) {
	r[i, j+1] = "="
	} else {
	x = sprintf("%.3f%%", (s1 - s2) / s2 * 100)
	if (s1 > s2) x = "+" x
	r[i, j+1] = x
	}
	}
	}

	# find column widths
	for (cc = 0; cc <= N+1; cc++) {
	w[cc] = 0;
	for (rr = 0; rr <= N; rr++) {
	if (length(r[rr,cc]) > w[cc]) w[cc] = length(r[rr,cc])
	}
	}

	for (rr = 0; rr <= N; rr++) {
	line = ""
	sep = ""
	for (cc = 0; cc <= N+1; cc++) {
	line = line sep sprintf("%*s", w[cc], r[rr, cc])
	sep = " "
	}
	print line
	}
	}
	'