| 1 | # Script to calculate size stats from APKINDEX
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| 2 | #
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| 3 | # Generated by Claude, then lightly edited
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| 4 |
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| 5 | BEGIN {
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| 6 | # Initialize variables
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| 7 | package_name = ""
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| 8 | package_size = 0
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| 9 | total_packages = 0
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| 10 | total_size = 0
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| 11 | }
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| 12 |
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| 13 | # Match package name lines (P:package-name)
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| 14 | /^P:/ {
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| 15 | package_name = substr($0, 3) # Remove "P:" prefix
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| 16 | }
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| 17 |
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| 18 | # Match size lines (S:123456)
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| 19 | /^S:/ {
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| 20 | package_size = substr($0, 3) # Remove "S:" prefix
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| 21 |
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| 22 | # Only print if we have both package name and size
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| 23 | if (package_name != "" && package_size > 0) {
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| 24 | printf "%-40s %12s %15s\n", package_name, package_size, human_readable(package_size)
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| 25 | total_packages++
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| 26 | total_size += package_size
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| 27 | }
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| 28 |
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| 29 | # Reset for next package
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| 30 | package_name = ""
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| 31 | package_size = 0
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| 32 | }
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| 33 |
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| 34 | # Function to convert bytes to human readable format
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| 35 | function human_readable(bytes) {
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| 36 | if (bytes >= 1e9) {
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| 37 | return sprintf("%.1f GB", bytes / 1e9)
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| 38 | } else if (bytes >= 1e6) {
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| 39 | return sprintf("%.1f MB", bytes / 1e6)
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| 40 | } else if (bytes >= 1e3) {
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| 41 | return sprintf("%.1f KB", bytes / 1e3)
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| 42 | } else {
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| 43 | return sprintf("%d B", bytes)
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| 44 | }
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| 45 | }
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| 46 |
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| 47 | END {
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| 48 | printf "\n"
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| 49 | printf "Total packages: %d\n", total_packages
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| 50 | printf "Total size: %s (%s)\n", total_size, human_readable(total_size)
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| 51 | printf "Average size: %s\n", human_readable(total_size / total_packages)
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| 52 | }
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