To be fair, this is with debug symbols. Debug builds of Chrome were in the 5GB range several years ago; no doubt that’s increased since then. I can remember my poor laptop literally running out of RAM during the linking phase due to the sheer size of the object files being linked.
Why are debug symbols so big? For C++, they’ll include detailed type information for every instantiation of every type everywhere in your program, including the types of every field (recursively), method signatures, etc. etc., along with the types and locations of local variables in every method (updated on every spill and move), line number data, etc. etc. for every specialization of every function. This produces a lot of data even for “moderate”-sized projects.
Worse: for C++, you don’t win much through dynamic linking because dynamically linking C++ libraries sucks so hard. Templates defined in header files can’t easily be put in shared libraries; ABI variations mean that dynamic libraries generally have to be updated in sync; and duplication across modules is bound to happen (thanks to inlined functions and templates). A single “stuck” or outdated .so might completely break a deployment too, which is a much worse situation than deploying a single binary (either you get a new version or an old one, not a broken service).
The HN de-sensationalize algo for submission titles needs tweaking. Original title is simply "Huge Binaries".
25 GiB for a single binary sounds horrifying
at some point surely some dynamic linking is warranted
To be fair, this is with debug symbols. Debug builds of Chrome were in the 5GB range several years ago; no doubt that’s increased since then. I can remember my poor laptop literally running out of RAM during the linking phase due to the sheer size of the object files being linked.
Why are debug symbols so big? For C++, they’ll include detailed type information for every instantiation of every type everywhere in your program, including the types of every field (recursively), method signatures, etc. etc., along with the types and locations of local variables in every method (updated on every spill and move), line number data, etc. etc. for every specialization of every function. This produces a lot of data even for “moderate”-sized projects.
Worse: for C++, you don’t win much through dynamic linking because dynamically linking C++ libraries sucks so hard. Templates defined in header files can’t easily be put in shared libraries; ABI variations mean that dynamic libraries generally have to be updated in sync; and duplication across modules is bound to happen (thanks to inlined functions and templates). A single “stuck” or outdated .so might completely break a deployment too, which is a much worse situation than deploying a single binary (either you get a new version or an old one, not a broken service).