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unneback |
OUTPUT_FORMAT("elf32-powerpc", "elf32-powerpc",
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"elf32-powerpc")
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OUTPUT_ARCH(powerpc)
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ENTRY(_start)
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/*
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* Number of Decrementer countdowns per millisecond
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*
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* Calculated by: (66.67 Mhz * 1000) / 4 cycles per click
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*
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PROVIDE(CPU_PPC_CLICKS_PER_MS = 16667);
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*/
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MEMORY
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{
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RAM : ORIGIN = 0x41000, LENGTH = 32M
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EPROM : ORIGIN = 0xFFF00000, LENGTH = 0x20000
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}
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SECTIONS
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{
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/* Read-only sections, merged into text segment: */
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/* . = 0x40000 + SIZEOF_HEADERS; */
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/* . = 0x1000000;*/
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. = 0x41000;
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.interp : { *(.interp) }
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.hash : { *(.hash) }
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.dynsym : { *(.dynsym) }
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.dynstr : { *(.dynstr) }
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.rela.text : { *(.rela.text) }
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.rela.data : { *(.rela.data) }
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.rela.rodata : { *(.rela.rodata) }
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.rela.got : { *(.rela.got) }
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.rela.got1 : { *(.rela.got1) }
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.rela.got2 : { *(.rela.got2) }
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.rela.ctors : { *(.rela.ctors) }
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.rela.dtors : { *(.rela.dtors) }
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.rela.init : { *(.rela.init) }
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.rela.fini : { *(.rela.fini) }
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.rela.bss : { *(.rela.bss) }
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.rela.plt : { *(.rela.plt) }
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.rela.sdata : { *(.rela.sdata2) }
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.rela.sbss : { *(.rela.sbss2) }
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.rela.sdata2 : { *(.rela.sdata2) }
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.rela.sbss2 : { *(.rela.sbss2) }
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.plt : { *(.plt) }
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.text :
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{
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*(.text)
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*(.gnu.linkonce.t.*)
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*(.descriptors)
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/* .gnu.warning sections are handled specially by elf32.em. */
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*(.gnu.warning)
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} >RAM
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.init : { *(.init) } >RAM
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.fini : { *(.fini) } >RAM
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.rodata : { *(.rodata) *(.gnu.linkonce.r*) } >RAM
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.rodata1 : { *(.rodata1) } >RAM
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_etext = .;
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PROVIDE (etext = .);
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PROVIDE (__SDATA2_START__ = .);
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.sdata2 : { *(.sdata2) } >RAM
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.sbss2 : { *(.sbss2) } >RAM
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PROVIDE (__SBSS2_END__ = .);
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/* Adjust the address for the data segment. We want to adjust up to
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the same address within the page on the next page up. It would
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be more correct to do this:
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. = ALIGN(0x40000) + (ALIGN(8) & (0x40000 - 1));
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The current expression does not correctly handle the case of a
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text segment ending precisely at the end of a page; it causes the
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data segment to skip a page. The above expression does not have
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this problem, but it will currently (2/95) cause BFD to allocate
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a single segment, combining both text and data, for this case.
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This will prevent the text segment from being shared among
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multiple executions of the program; I think that is more
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important than losing a page of the virtual address space (note
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that no actual memory is lost; the page which is skipped can not
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be referenced). */
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. = ALIGN(8) + 0x40000;
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PROVIDE (sdata = .);
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.data :
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{
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*(.data)
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*(.gnu.linkonce.d.*)
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CONSTRUCTORS
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} >RAM
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PROVIDE (__EXCEPT_START__ = .);
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.gcc_except_table : { *(.gcc_except_table) } >RAM
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PROVIDE (__EXCEPT_END__ = .);
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.data1 : { *(.data1) } >RAM
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.got1 : { *(.got1) } >RAM
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.dynamic : { *(.dynamic) } >RAM
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/* Put .ctors and .dtors next to the .got2 section, so that the pointers
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get relocated with -mrelocatable. Also put in the .fixup pointers.
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The current compiler no longer needs this, but keep it around for 2.7.2 */
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PROVIDE (_GOT2_START_ = .);
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PROVIDE (__GOT2_START__ = .);
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.got2 : { *(.got2) } >RAM
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PROVIDE (_GOT2_END_ = .);
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PROVIDE (__GOT2_END__ = .);
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PROVIDE (__CTOR_LIST__ = .);
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.ctors : { *(.ctors) } >RAM
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PROVIDE (__CTOR_END__ = .);
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PROVIDE (__DTOR_LIST__ = .);
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.dtors : { *(.dtors) } >RAM
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PROVIDE (__DTOR_END__ = .);
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PROVIDE (_FIXUP_START_ = .);
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PROVIDE (__FIXUP_START__ = .);
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.fixup : { *(.fixup) } >RAM
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PROVIDE (_FIXUP_END_ = .);
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PROVIDE (__FIXUP_END__ = .);
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PROVIDE (_GOT2_END_ = .);
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PROVIDE (_GOT_START_ = .);
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s.got = .;
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.got : { *(.got) } >RAM
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.got.plt : { *(.got.plt) } >RAM
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PROVIDE (_GOT_END_ = .);
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PROVIDE (__GOT_END__ = .);
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/* We want the small data sections together, so single-instruction offsets
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can access them all, and initialized data all before uninitialized, so
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we can shorten the on-disk segment size. */
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PROVIDE (__SDATA_START__ = .);
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.sdata : { *(.sdata) } >RAM
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_edata = .;
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PROVIDE (edata = .);
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PROVIDE (RAM_END = 4M);
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.sbss :
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{
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PROVIDE (__sbss_start = .);
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*(.sbss)
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*(.scommon)
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PROVIDE (__sbss_end = .);
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} >RAM
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PROVIDE (__SBSS_END__ = .);
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.bss :
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{
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PROVIDE (__bss_start = .);
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*(.dynbss)
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*(.bss)
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*(COMMON)
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} >RAM
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. = ALIGN(8) + 0x8000;
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PROVIDE (__stack = .);
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_end = . ;
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PROVIDE (end = .);
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/* These are needed for ELF backends which have not yet been
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converted to the new style linker. */
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157 |
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.stab 0 : { *(.stab) }
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.stabstr 0 : { *(.stabstr) }
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159 |
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/* DWARF debug sections.
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160 |
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Symbols in the DWARF debugging sections are relative to the beginning
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of the section so we begin them at 0. */
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/* DWARF 1 */
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163 |
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.debug 0 : { *(.debug) }
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.line 0 : { *(.line) }
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165 |
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/* GNU DWARF 1 extensions */
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166 |
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.debug_srcinfo 0 : { *(.debug_srcinfo) }
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167 |
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.debug_sfnames 0 : { *(.debug_sfnames) }
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168 |
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/* DWARF 1.1 and DWARF 2 */
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169 |
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.debug_aranges 0 : { *(.debug_aranges) }
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170 |
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.debug_pubnames 0 : { *(.debug_pubnames) }
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171 |
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/* DWARF 2 */
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172 |
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.debug_info 0 : { *(.debug_info) }
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173 |
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.debug_abbrev 0 : { *(.debug_abbrev) }
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174 |
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.debug_line 0 : { *(.debug_line) }
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175 |
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.debug_frame 0 : { *(.debug_frame) }
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176 |
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.debug_str 0 : { *(.debug_str) }
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177 |
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.debug_loc 0 : { *(.debug_loc) }
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178 |
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.debug_macinfo 0 : { *(.debug_macinfo) }
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179 |
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/* SGI/MIPS DWARF 2 extensions */
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180 |
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.debug_weaknames 0 : { *(.debug_weaknames) }
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181 |
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.debug_funcnames 0 : { *(.debug_funcnames) }
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182 |
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.debug_typenames 0 : { *(.debug_typenames) }
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183 |
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.debug_varnames 0 : { *(.debug_varnames) }
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184 |
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/* These must appear regardless of . */
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185 |
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}
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