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7e536b3be2
Instead of doubling the invokebuiltin logic here and there, use the same insns.def definition for both MJIT/non-JIT situations.
115 lines
5 KiB
Text
115 lines
5 KiB
Text
% # -*- C -*-
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% # Copyright (c) 2018 Takashi Kokubun. All rights reserved.
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% #
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% # This file is a part of the programming language Ruby. Permission is hereby
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% # granted, to either redistribute and/or modify this file, provided that the
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% # conditions mentioned in the file COPYING are met. Consult the file for
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% # details.
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%
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% to_cstr = lambda do |line|
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% normalized = line.gsub(/\t/, ' ' * 8)
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% indented = normalized.sub(/\A(?!#)/, ' ') # avoid indenting preprocessor
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% rstring2cstr(indented.rstrip).sub(/"\z/, '\\n"')
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% end
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%
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% #
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% # Expand simple macro, which doesn't require dynamic C code.
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% #
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% expand_simple_macros = lambda do |arg_expr|
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% arg_expr.dup.tap do |expr|
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% # For `leave`. We can't proceed next ISeq in the same JIT function.
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% expr.gsub!(/^(?<indent>\s*)RESTORE_REGS\(\);\n/) do
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% indent = Regexp.last_match[:indent]
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% <<-RESTORE_REGS.gsub(/^ +/, '')
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% #if OPT_CALL_THREADED_CODE
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% #{indent}rb_ec_thread_ptr(ec)->retval = val;
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% #{indent}return 0;
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% #else
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% #{indent}return val;
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% #endif
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% RESTORE_REGS
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% end
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% expr.gsub!(/^(?<indent>\s*)NEXT_INSN\(\);\n/) do
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% indent = Regexp.last_match[:indent]
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% <<-end.gsub(/^ +/, '')
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% #{indent}UNREACHABLE_RETURN(Qundef);
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% end
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% end
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% end
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% end
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%
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% #
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% # Print a body of insn, but with macro expansion.
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% #
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% expand_simple_macros.call(insn.expr.expr).each_line do |line|
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% #
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% # Expand dynamic macro here (only JUMP for now)
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% #
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% # TODO: support combination of following macros in the same line
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% case line
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% when /\A\s+JUMP\((?<dest>[^)]+)\);\s+\z/
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% dest = Regexp.last_match[:dest]
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%
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% if insn.name == 'opt_case_dispatch' # special case... TODO: use another macro to avoid checking name
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{
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struct case_dispatch_var arg;
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arg.f = f;
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arg.base_pos = pos + insn_len(insn);
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arg.last_value = Qundef;
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fprintf(f, " switch (<%= dest %>) {\n");
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st_foreach(RHASH_TBL_RAW(hash), compile_case_dispatch_each, (VALUE)&arg);
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fprintf(f, " case %lu:\n", else_offset);
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fprintf(f, " goto label_%lu;\n", arg.base_pos + else_offset);
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fprintf(f, " }\n");
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}
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% else
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% # Before we `goto` next insn, we need to set return values, especially for getinlinecache
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% insn.rets.reverse_each.with_index do |ret, i|
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% # TOPN(n) = ...
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fprintf(f, " stack[%d] = <%= ret.fetch(:name) %>;\n", b->stack_size + (int)<%= insn.call_attribute('sp_inc') %> - <%= i + 1 %>);
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% end
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%
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next_pos = pos + insn_len(insn) + (unsigned int)<%= dest %>;
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fprintf(f, " goto label_%d;\n", next_pos);
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% end
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% when /\A\s+CALL_SIMPLE_METHOD\(\);\s+\z/
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% # For `opt_xxx`'s fallbacks.
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if (status->local_stack_p) {
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fprintf(f, " reg_cfp->sp = vm_base_ptr(reg_cfp) + %d;\n", b->stack_size);
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}
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fprintf(f, " reg_cfp->pc = original_body_iseq + %d;\n", pos);
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fprintf(f, " RB_DEBUG_COUNTER_INC(mjit_cancel_opt_insn);\n");
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fprintf(f, " goto cancel;\n");
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% when /\A(?<prefix>.+\b)INSN_LABEL\((?<name>[^)]+)\)(?<suffix>.+)\z/m
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% prefix, name, suffix = Regexp.last_match[:prefix], Regexp.last_match[:name], Regexp.last_match[:suffix]
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fprintf(f, " <%= prefix.gsub(/\t/, ' ' * 8) %>INSN_LABEL(<%= name %>_%d)<%= suffix.sub(/\n/, '\n') %>", pos);
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% else
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% if insn.handles_sp?
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% # If insn.handles_sp? is true, cfp->sp might be changed inside insns (like vm_caller_setup_arg_block)
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% # and thus we need to use cfp->sp, even when local_stack_p is TRUE. When insn.handles_sp? is true,
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% # cfp->sp should be available too because _mjit_compile_pc_and_sp.erb sets it.
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fprintf(f, <%= to_cstr.call(line) %>);
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% else
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% # If local_stack_p is TRUE and insn.handles_sp? is false, stack values are only available in local variables
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% # for stack. So we need to replace those macros if local_stack_p is TRUE here.
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% case line
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% when /\bGET_SP\(\)/
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% # reg_cfp->sp
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fprintf(f, <%= to_cstr.call(line.sub(/\bGET_SP\(\)/, '%s')) %>, (status->local_stack_p ? "(stack + stack_size)" : "GET_SP()"));
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% when /\bSTACK_ADDR_FROM_TOP\((?<num>[^)]+)\)/
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% # #define STACK_ADDR_FROM_TOP(n) (GET_SP()-(n))
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% num = Regexp.last_match[:num]
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fprintf(f, <%= to_cstr.call(line.sub(/\bSTACK_ADDR_FROM_TOP\(([^)]+)\)/, '%s')) %>,
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(status->local_stack_p ? "(stack + (stack_size - (<%= num %>)))" : "STACK_ADDR_FROM_TOP(<%= num %>)"));
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% when /\bTOPN\((?<num>[^)]+)\)/
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% # #define TOPN(n) (*(GET_SP()-(n)-1))
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% num = Regexp.last_match[:num]
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fprintf(f, <%= to_cstr.call(line.sub(/\bTOPN\(([^)]+)\)/, '%s')) %>,
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(status->local_stack_p ? "*(stack + (stack_size - (<%= num %>) - 1))" : "TOPN(<%= num %>)"));
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% else
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fprintf(f, <%= to_cstr.call(line) %>);
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% end
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% end
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% end
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% end
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