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Description of exception handling | ||
--------------------------------- | ||
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Python uses a technique known as "zero-cost" exception handling, which | ||
minimizes the cost of supporting exceptions. In the common case (where | ||
no exception is raised) the cost is reduced to zero (or close to zero). | ||
The cost of raising an exception is increased, but not by much. | ||
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The following code: | ||
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``` | ||
try: | ||
g(0) | ||
except: | ||
res = "fail" | ||
``` | ||
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compiles into intermediate code like the following: | ||
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``` | ||
RESUME 0 | ||
1 SETUP_FINALLY 8 (to L1) | ||
2 LOAD_NAME 0 (g) | ||
PUSH_NULL | ||
LOAD_CONST 0 (0) | ||
CALL 1 | ||
POP_TOP | ||
POP_BLOCK | ||
-- L1: PUSH_EXC_INFO | ||
3 POP_TOP | ||
4 LOAD_CONST 1 ('fail') | ||
STORE_NAME 1 (res) | ||
``` | ||
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`SETUP_FINALLY` and `POP_BLOCK` are pseudo-instructions. This means | ||
that they can appear in intermediate code but they are not bytecode | ||
instructions. `SETUP_FINALLY` specifies that henceforth, exceptions | ||
are handled by the code at label L1. The `POP_BLOCK` instruction | ||
reverses the effect of the last `SETUP` instruction, so that the | ||
active exception handler reverts to what it was before. | ||
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`SETUP_FINALLY` and `POP_BLOCK` have no effect when no exceptions | ||
are raised. The idea of zero-cost exception handling is to replace | ||
these pseudo-instructions by metadata which is stored alongside the | ||
bytecode, and which is inspected only when an exception occurs. | ||
This metadata is the exception table, and it is stored in the code | ||
object's `co_exceptiontable` field. | ||
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When the pseudo-instructions are translated into bytecode, | ||
`SETUP_FINALLY` and `POP_BLOCK` are removed, and the exception | ||
table is constructed, mapping each instruction to the exception | ||
handler that covers it, if any. Instructions which are not | ||
covered by any exception handler within the same code object's | ||
bytecode, do not appear in the exception table at all. | ||
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For the code object in our example above, the table has a single | ||
entry specifying that all instructions that were between the | ||
`SETUP_FINALLY` and the `POP_BLOCK` are covered by the exception | ||
handler located at label `L1`. | ||
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Handling Exceptions | ||
------------------- | ||
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At runtime, when an exception occurs, the interpreter looks up | ||
the offset of the current instruction in the exception table. If | ||
it finds a handler, control flow transfers to it. Otherwise, the | ||
exception bubbles up to the caller, and the caller's frame is | ||
checked for a handler covering the `CALL` instruction. This | ||
repeats until a handler is found or the topmost frame is reached. | ||
If no handler is found, the program terminates. During unwinding, | ||
the traceback is constructed as each frame is added to it. | ||
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Along with the location of an exception handler, each entry of the | ||
exception table also contains the stack depth of the `try` instruction | ||
and a boolean `lasti` value, which indicates whether the instruction | ||
offset of the raising instruction should be pushed to the stack. | ||
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Handling an exception, once an exception table entry is found, consists | ||
of the following steps: | ||
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1. pop values from the stack until it matches the stack depth for the handler. | ||
2. if `lasti` is true, then push the offset that the exception was raised at. | ||
3. push the exception to the stack. | ||
4. jump to the target offset and resume execution. | ||
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Reraising Exceptions and `lasti` | ||
-------------------------------- | ||
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The purpose of pushing `lasti` to the stack is for cases where an exception | ||
needs to be re-raised, and be associated with the original instruction that | ||
raised it. This happens, for example, at the end of a `finally` block, when | ||
any in-flight exception needs to be propagated on. As the frame's instruction | ||
pointer now points into the finally block, a `RERAISE` instruction | ||
(with `oparg > 0`) sets it to the `lasti` value from the stack. | ||
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Format of the exception table | ||
----------------------------- | ||
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Conceptually, the exception table consists of a sequence of 5-tuples: | ||
``` | ||
1. `start-offset` (inclusive) | ||
2. `end-offset` (exclusive) | ||
3. `target` | ||
4. `stack-depth` | ||
5. `push-lasti` (boolean) | ||
``` | ||
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All offsets and lengths are in code units, not bytes. | ||
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We want the format to be compact, but quickly searchable. | ||
For it to be compact, it needs to have variable sized entries so that we can store common (small) offsets compactly, but handle large offsets if needed. | ||
For it to be searchable quickly, we need to support binary search giving us log(n) performance in all cases. | ||
Binary search typically assumes fixed size entries, but that is not necessary, as long as we can identify the start of an entry. | ||
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It is worth noting that the size (end-start) is always smaller than the end, so we encode the entries as: | ||
`start, size, target, depth, push-lasti`. | ||
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Also, sizes are limited to 2**30 as the code length cannot exceed 2**31 and each code unit takes 2 bytes. | ||
It also happens that depth is generally quite small. | ||
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So, we need to encode: | ||
``` | ||
`start` (up to 30 bits) | ||
`size` (up to 30 bits) | ||
`target` (up to 30 bits) | ||
`depth` (up to ~8 bits) | ||
`lasti` (1 bit) | ||
``` | ||
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We need a marker for the start of the entry, so the first byte of entry will have the most significant bit set. | ||
Since the most significant bit is reserved for marking the start of an entry, we have 7 bits per byte to encode offsets. | ||
Encoding uses a standard varint encoding, but with only 7 bits instead of the usual 8. | ||
The 8 bits of a byte are (msb left) SXdddddd where S is the start bit. X is the extend bit meaning that the next byte is required to extend the offset. | ||
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In addition, we combine `depth` and `lasti` into a single value, `((depth<<1)+lasti)`, before encoding. | ||
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For example, the exception entry: | ||
``` | ||
`start`: 20 | ||
`end`: 28 | ||
`target`: 100 | ||
`depth`: 3 | ||
`lasti`: False | ||
``` | ||
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is encoded by first converting to the more compact four value form: | ||
``` | ||
`start`: 20 | ||
`size`: 8 | ||
`target`: 100 | ||
`depth<<1+lasti`: 6 | ||
``` | ||
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which is then encoded as: | ||
``` | ||
148 (MSB + 20 for start) | ||
8 (size) | ||
65 (Extend bit + 1) | ||
36 (Remainder of target, 100 == (1<<6)+36) | ||
6 | ||
``` | ||
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for a total of five bytes. | ||
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Script to parse the exception table | ||
----------------------------------- | ||
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``` | ||
def parse_varint(iterator): | ||
b = next(iterator) | ||
val = b & 63 | ||
while b&64: | ||
val <<= 6 | ||
b = next(iterator) | ||
val |= b&63 | ||
return val | ||
``` | ||
``` | ||
def parse_exception_table(code): | ||
iterator = iter(code.co_exceptiontable) | ||
try: | ||
while True: | ||
start = parse_varint(iterator)*2 | ||
length = parse_varint(iterator)*2 | ||
end = start + length - 2 # Present as inclusive, not exclusive | ||
target = parse_varint(iterator)*2 | ||
dl = parse_varint(iterator) | ||
depth = dl >> 1 | ||
lasti = bool(dl&1) | ||
yield start, end, target, depth, lasti | ||
except StopIteration: | ||
return | ||
``` |
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