Here is the story:
I am developing C++ software for ARM Cortex-M0 processor in Linux with AC6 Toolpack. Before I was using Keil (in windows) (who has their own toolchain) and I have migrated to GNU-toolchain ((GNU Tools for ARM Embedded Processors) 5.2.1) . First thing i have realized is; binary file size increased substantially. I have tested every compiler optimizations (except link time optimization, it gives an error in inline assembly, not part of question but may be related to answer). Then started to inspect executables (elf file not bin, gnu produces both) with any tool available :objdump, readelf, nm. I found some symbols causing size increase, significant ones are: '
d_print_comp_inner' , '
d_template_args'. But have no idea what is causing these functions to appear in binary. (i have used minimal libraries: nano newlib). Long story short I started to eliminate codes one by one to find culprit. At last it was Abstract Method declaration!
Defining function as
virtual Return_type function_name(...)=0;
virtual Return_type function_name(...);
adding 45 KB and the symbols I have mentioned. And this is the only change in source code. Empty definition in base class is present. Note that: method is still virtual and overridden in child classes
Size output without Abstract Class:
text data bss dec hex filename 15316 24 4764 20104 4e88 temc_discovery.elf
Size output with Abstract Class:
text data bss dec hex filename 61484 128 4796 66408 10368 temc_discovery.elf
Here the symbols and theirs size that shows up when method is abstract, eliminated the ones show up in both versions. (
nm tool is used. Not complete list, the ones with size >=0x60)
00002de4 t d_print_comp_inner 00001a34 t d_exprlist 00000ca4 t d_template_args 00000678 t d_type 00000574 t d_print_mod 000003f8 t d_encoding 000003e0 r cplus_demangle_operators 000003c8 t d_expression_1 000003a8 t d_name 00000354 t d_demangle_callback.constprop.15 000002e0 t d_print_mod_list 00000294 r cplus_demangle_builtin_types 00000268 t d_unqualified_name 00000244 T _printf_i 00000238 t d_print_function_type.isra.11 000001fc T _svfprintf_r 000001fc T _svfiprintf_r 000001f4 t d_print_array_type.isra.10 000001ce t d_print_cast.isra.12 0000018c t d_substitution 00000110 t d_operator_name 0000010c T __sflush_r 000000e8 T __swsetup_r 000000e6 t d_cv_qualifiers 000000e0 t d_print_subexpr 000000e0 t d_expr_primary 000000dc T _printf_common 000000cc T __cxa_demangle 000000c8 t d_source_name 000000c4 r standard_subs 000000c4 T __ssputs_r 000000b0 T __swbuf_r 000000ac T _malloc_r 000000a8 T _fputs_r 000000a4 T __smakebuf_r 000000a0 T __gnu_cxx::__verbose_terminate_handler() 00000096 t d_print_expr_op 0000008c T _free_r 0000008c t d_parmlist 0000008a t d_growable_string_callback_adapter 0000007c T __sfp 00000072 t d_append_buffer 00000068 T __sinit 00000060 d impure_data
Some names familiar to me (such as printf,flush,malloc,fputs etc.) are not even mentioned in the source code.
Any one with any idea what is causing this behavior?
I was already disabling exceptions with flag
--noexception, so I haven't given any though to it. As it turns out, it is related to answer so good to mention this here.
Update 2: This is the most comprehensive website explaining it all, if you track the links in answers.