| Commit message (Collapse) | Author | Age | Files | Lines |
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We always use lex_cast either to string or from string, so I made that
explicit, and got rid of some string copies in the process. There was
also stringify(), which was redundant to lex_cast<string>.
We also always used lex_cast_hex to string, so that's now hard-coded and
again eliminated a string copy.
For lex_cast_qstring<string>, there's no need to write the streamify the
input, so a specialization now operates directly on the input.
Hopefully this is a bit cleaner, and I do measure it to be a little
faster on scripts with many probes.
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When a static class member is only used by a single method, it's more
concise to use a static local variable instead.
* staptree.cxx (probe::probe): Make last_probeidx a static local.
* tapset-perfmon.cxx (perfmon_derived_probe::perfmon_derived_probe):
Make probes_allocated a static local.
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I noticed that most uses of update_visitor::require() were simply
writing the value back to the same place, i.e. foo = require(foo). The
new replace() method just encapsulates that paradigm, so we don't have
the duplication between the LHS and RHS.
* staptree.h (update_visitor::replace): New.
* elaborate.cxx, staptree.cxx, tapset-mark.cxx, tapset-perfmon.cxx,
tapset-procfs.cxx, tapset-utrace.cxx, tapsets.cxx: Update all require
calls that are simply updating the value in-place.
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There are several tapsets that can't deal with component dereferences on
their target variables, and they all check-and-throw in the same way.
This refactors the checks into a target_symbol member.
* staptree.cxx (target_symbol::assert_no_components): New.
* tapsets.cxx (tracepoint_var_expanding_visitor::visit_target_symbol_arg,
tracepoint_var_expanding_visitor::visit_target_symbol_context): Use
the new assertion function to check for no components.
* tapset-mark.cxx (mark_var_expanding_visitor::visit_target_symbol_arg,
mark_var_expanding_visitor::visit_target_symbol_context): Ditto.
* tapset-perfmon.cxx (perfmon_var_expanding_visitor::visit_target_symbol): Ditto.
* tapset-procfs.cxx (procfs_var_expanding_visitor::visit_target_symbol): Ditto.
* tapset-utrace.cxx (utrace_var_expanding_visitor::visit_target_symbol_arg,
utrace_var_expanding_visitor::visit_target_symbol_context): Ditto.
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Now the dereferences on target_symbol and cast_op are tracked with a
struct instead of just a generic pair. The first immediate benefit is
that we can track the token for more exact error reporting.
* staptree.h (target_symbol): Add a new component type.
* staptree.cxx (target_symbol::component::print): New.
(operator<<(ostream&, target_symbol::component&): New.
(target_symbol::print): Adapt component printing.
(cast_op::print): Ditto.
* parse.cxx (parser::parse_target_symbol_components): Adapt to the new
component construction.
* dwflpp.cxx (dwflpp::find_struct_member): take the component as a
parameter for a better token in error messages
(dwflpp::translate_components): Adapt to the new component type.
* tapsets.cxx (dwarf_var_expanding_visitor::visit_target_symbol): Don't
overwrite the token in target_symbol saved errors.
(tracepoint_var_expanding_visitor::visit_target_symbol_arg): Ditto.
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This allows the '&' operator to get the address of @cast and $target
variable expressions.
* staptree.h (target_symbol): add addressof field
* staptree.cxx (target_symbol::print): print '&' for addressof
(cast_op::print): ditto
* parse.cxx (parser::parse_value): allow '&' prefix on $target/@cast
* dwflpp.cxx (dwflpp::translate_final_fetch_or_store): allow taking the
computed address without actually doing a final fetch.
* tapset* (*::visit_target_symbol): throw errors for $vars w/o addresses
* testsuite/systemtap.base/cast.stp: add &@cast test
* testsuite/semok/target_addr.stp: test '&' on different member types
* testsuite/semko/target_addr?.stp: test failure on bitfields/registers
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