fixed range selection for LoadedMemorySection.dump

float_support
Anton Lydike 4 years ago
parent c2cbb4653c
commit ce59d10a3b

@ -184,17 +184,17 @@ class LoadedMemorySection:
start = max(align_addr(at_off - ((max_rows * bytes_per_row) // 2), 8) - 8, 0)
if all:
end = self.size
start = 0
else:
end = min(start + (max_rows * bytes_per_row), self.size)
fmt_str = " 0x{:0" + str(ceil(log(self.base + end, 16))) + "X}: {}"
if self.flags.executable:
# this section holds instructions!
start = max(self.base - at_addr - (max_rows // 2), 0)
end = min(self.size, start + max_rows)
print(FMT_BOLD + FMT_MAGENTA + "{}, viewing {} instructions:".format(
start = 0 if all else max(at_off - (max_rows // 2), 0)
end = self.size if all else min(self.size, start + max_rows)
print(FMT_MEM + "{}, viewing {} instructions:".format(
self, end - start
) + FMT_NONE)
for i in range(start, end):
@ -204,7 +204,7 @@ class LoadedMemorySection:
ins = repr(self.content[i])
print(fmt_str.format(self.base + i, ins))
else:
print(FMT_BOLD + FMT_MAGENTA + "{}, viewing {} bytes:".format(
print(FMT_MEM + "{}, viewing {} bytes:".format(
self, end - start
) + FMT_NONE)
for i in range(start, end, bytes_per_row):
@ -216,9 +216,9 @@ class LoadedMemorySection:
else:
print(fmt_str.format(self.base + start + i, format_bytes(data, fmt, group)))
if end == self.size:
print(FMT_BOLD + FMT_MAGENTA + "End of section!" + FMT_NONE)
print(FMT_MEM + "End of section!" + FMT_NONE)
else:
print(FMT_BOLD + FMT_MAGENTA + "..." + FMT_NONE)
print(FMT_MEM + "More bytes ..." + FMT_NONE)
def __repr__(self):
return "{}[{}] at 0x{:08X} (size={}bytes, flags={}, owner={})".format(
@ -230,6 +230,7 @@ class LoadedMemorySection:
self.owner
)
class LoadedExecutable:
"""
This represents an executable which is loaded into memory at address base_addr
@ -273,7 +274,6 @@ class LoadedExecutable:
self.sections_by_name[loaded_sec.name] = loaded_sec
curr = align_addr(loaded_sec.size + curr)
# stack/heap if wanted
if exe.stack_pref is not None:
self.sections.append(LoadedMemorySection(
@ -311,7 +311,6 @@ class LoadedExecutable:
return self.global_symbol_table[name]
raise LinkerException('Symbol {} not found!'.format(name), (self,))
def __repr__(self):
return '{}[{}](base=0x{:08X}, size={}bytes, sections={}, run_ptr=0x{:08X})'.format(
self.__class__.__name__,

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