mirror of
https://gitlab.nic.cz/labs/bird.git
synced 2024-11-09 20:58:44 +00:00
23e3b1e665
This is just a naming change.
409 lines
12 KiB
Plaintext
409 lines
12 KiB
Plaintext
m4_divert(-1)m4_dnl
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#
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# BIRD -- Construction of per-instruction structures
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#
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# (c) 2018 Maria Matejka <mq@jmq.cz>
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#
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# Can be freely distributed and used under the terms of the GNU GPL.
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#
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#
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# Global Diversions:
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# 4 enum fi_code
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# 5 enum fi_code to string
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# 6 dump line item
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# 7 dump line item callers
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# 8 linearize
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# 9 same (filter comparator)
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# 1 union in struct f_inst
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# 3 constructors
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# 10 interpreter
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#
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# Per-inst Diversions:
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# 101 content of per-inst struct
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# 102 constructor arguments
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# 103 constructor body
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# 104 dump line item content
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# 105 linearize body
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# 106 comparator body
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# 107 struct f_line_item content
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# 108 interpreter body
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#
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# Diversions for TARGET=I: 7xx
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# Diversions for TARGET=C: 8xx
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# Diversions for TARGET=H: 9xx
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# Flush the completed instruction
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m4_define(FID_END, `m4_divert(-1)')
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m4_dnl m4_debugmode(aceflqtx)
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m4_define(FID_ZONE, `m4_divert($1) /* $2 for INST_NAME() */')
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m4_define(FID_INST, `FID_ZONE(1, Instruction structure for config)')
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m4_define(FID_LINE, `FID_ZONE(2, Instruction structure for interpreter)')
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m4_define(FID_NEW, `FID_ZONE(3, Constructor)')
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m4_define(FID_ENUM, `FID_ZONE(4, Code enum)')
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m4_define(FID_ENUM_STR, `FID_ZONE(5, Code enum to string)')
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m4_define(FID_DUMP, `FID_ZONE(6, Dump line)')
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m4_define(FID_DUMP_CALLER, `FID_ZONE(7, Dump line caller)')
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m4_define(FID_LINEARIZE, `FID_ZONE(8, Linearize)')
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m4_define(FID_SAME, `FID_ZONE(9, Comparison)')
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m4_define(FID_INTERPRET, `FID_ZONE(10, Interpret)')
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m4_define(FID_STRUCT_IN, `m4_divert(101)')
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m4_define(FID_NEW_ARGS, `m4_divert(102)')
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m4_define(FID_NEW_BODY, `m4_divert(103)')
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m4_define(FID_DUMP_BODY, `m4_divert(104)m4_define([[FID_DUMP_BODY_EXISTS]])')
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m4_define(FID_LINEARIZE_BODY, `m4_divert(105)m4_define([[FID_LINEARIZE_BODY_EXISTS]])')
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m4_define(FID_SAME_BODY, `m4_divert(106)')
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m4_define(FID_LINE_IN, `m4_divert(107)')
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m4_define(FID_INTERPRET_BODY, `m4_divert(108)')
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m4_define(FID_ALL, `FID_INTERPRET_BODY');
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m4_define(FID_ALL_TARGETS, `m4_ifdef([[FID_CURDIV]], [[m4_divert(FID_CURDIV)m4_undefine([[FID_CURDIV]])]])')
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m4_define(FID_C, `m4_ifelse(TARGET, [[C]], FID_ALL_TARGETS, [[m4_define(FID_CURDIV, m4_divnum)m4_divert(-1)]])')
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m4_define(FID_I, `m4_ifelse(TARGET, [[I]], FID_ALL_TARGETS, [[m4_define(FID_CURDIV, m4_divnum)m4_divert(-1)]])')
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m4_define(FID_H, `m4_ifelse(TARGET, [[H]], FID_ALL_TARGETS, [[m4_define(FID_CURDIV, m4_divnum)m4_divert(-1)]])')
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m4_define(INST_FLUSH, `m4_ifdef([[INST_NAME]], [[
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FID_ENUM
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INST_NAME(),
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FID_ENUM_STR
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[INST_NAME()] = "INST_NAME()",
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FID_INST
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struct {
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m4_undivert(101)
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} i_[[]]INST_NAME();
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FID_LINE
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struct {
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m4_undivert(107)
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} i_[[]]INST_NAME();
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FID_NEW
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struct f_inst *f_new_inst_]]INST_NAME()[[(enum f_instruction_code fi_code
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m4_undivert(102)
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)
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FID_H
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;
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FID_C
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{
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struct f_inst *what_ = cfg_allocz(sizeof(struct f_inst));
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what_->fi_code = fi_code;
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what_->lineno = ifs->lino;
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what_->size = 1;
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#define what (&(what_->i_]]INST_NAME()[[))
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m4_undivert(103)
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#undef what
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return what_;
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}
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FID_DUMP_CALLER
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case INST_NAME(): f_dump_line_item_]]INST_NAME()[[(item, indent + 1); break;
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FID_DUMP
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m4_ifdef([[FID_DUMP_BODY_EXISTS]],
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[[static inline void f_dump_line_item_]]INST_NAME()[[(const struct f_line_item *item_, const int indent)]],
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[[static inline void f_dump_line_item_]]INST_NAME()[[(const struct f_line_item *item UNUSED, const int indent UNUSED)]])
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m4_undefine([[FID_DUMP_BODY_EXISTS]])
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{
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#define item (&(item_->i_]]INST_NAME()[[))
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m4_undivert(104)
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#undef item
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}
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FID_ALL_TARGETS
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FID_LINEARIZE
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case INST_NAME(): {
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#define what (&(what_->i_]]INST_NAME()[[))
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#define item (&(dest->items[pos].i_]]INST_NAME()[[))
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m4_undivert(105)
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#undef what
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#undef item
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dest->items[pos].fi_code = what_->fi_code;
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dest->items[pos].lineno = what_->lineno;
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break;
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}
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m4_undefine([[FID_LINEARIZE_BODY_EXISTS]])
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FID_SAME
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case INST_NAME():
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#define f1 (&(f1_->i_]]INST_NAME()[[))
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#define f2 (&(f2_->i_]]INST_NAME()[[))
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m4_undivert(106)
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#undef f1
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#undef f2
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break;
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FID_INTERPRET
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case INST_NAME():
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#define whati (&(what->i_]]INST_NAME()[[))
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m4_ifelse(m4_eval(INST_INVAL() > 0), 1, [[if (vstk.cnt < INST_INVAL()) runtime("Stack underflow"); vstk.cnt -= INST_INVAL(); ]])
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m4_undivert(108)
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#undef whati
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break;
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FID_END
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]])')
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m4_define(INST, `m4_dnl
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INST_FLUSH()m4_dnl
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m4_define([[INST_NAME]], [[$1]])m4_dnl
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m4_define([[INST_INVAL]], [[$2]])m4_dnl
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FID_ALL() m4_dnl
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')
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m4_dnl FID_MEMBER call:
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m4_dnl type
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m4_dnl name in f_inst
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m4_dnl name in f_line_item
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m4_dnl comparator for same
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m4_dnl dump format string
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m4_dnl dump format args
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m4_dnl interpreter body
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m4_define(FID_MEMBER, `m4_dnl
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FID_LINE_IN
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$1 $2;
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FID_STRUCT_IN
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$1 $2;
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FID_NEW_ARGS
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, $1 $2
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FID_NEW_BODY
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what->$2 = $2;
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m4_ifelse($3,,,[[
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FID_LINEARIZE_BODY
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item->$3 = what->$2;
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]])
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m4_ifelse($4,,,[[
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FID_SAME_BODY
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if ($4) return 0;
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]])
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m4_ifelse($5,,,[[
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FID_DUMP_BODY
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debug("%s$5\n", INDENT, $6);
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]])
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m4_ifelse($7,,,[[
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FID_INTERPRET_BODY
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$7
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]])
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FID_ALL')
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m4_define(ARG_ANY, `
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FID_STRUCT_IN
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const struct f_inst * f$1;
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FID_NEW_ARGS
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, const struct f_inst * f$1
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FID_NEW_BODY
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what->f$1 = f$1;
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for (const struct f_inst *child = f$1; child; child = child->next) what_->size += child->size;
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FID_LINEARIZE_BODY
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pos = linearize(dest, what->f$1, pos);m4_dnl
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FID_ALL()')
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m4_define(ARG, `ARG_ANY($1)
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FID_INTERPRET_BODY
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if (v$1.type != $2) runtime("Argument $1 of instruction %s must be of type $2, got 0x%02x", f_instruction_name(what->fi_code), v$1.type)m4_dnl
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FID_ALL()')
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m4_define(LINEX, `FID_INTERPRET_BODY
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do {
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estk.item[estk.cnt].pos = 0;
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estk.item[estk.cnt].line = $1;
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estk.item[estk.cnt].ventry = vstk.cnt;
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estk.item[estk.cnt].vbase = estk.item[estk.cnt-1].vbase;
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estk.item[estk.cnt].emask = 0;
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estk.cnt++;
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} while (0)m4_dnl
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FID_ALL()')
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m4_define(LINE, `
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FID_LINE_IN
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const struct f_line * fl$1;
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FID_STRUCT_IN
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const struct f_inst * f$1;
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FID_NEW_ARGS
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, const struct f_inst * f$1
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FID_NEW_BODY
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what->f$1 = f$1;
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FID_DUMP_BODY
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f_dump_line(item->fl$1, indent + 1);
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FID_LINEARIZE_BODY
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item->fl$1 = f_linearize(what->f$1);
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FID_SAME_BODY
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if (!f_same(f1->fl$1, f2->fl$1)) return 0;
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FID_INTERPRET_BODY
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do { if (whati->fl$1) {
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LINEX(whati->fl$1);
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} } while(0)m4_dnl
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FID_ALL()')
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m4_define(RESULT_OK, `FID_INTERPRET_BODY()vstk.cnt++FID_ALL()')
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m4_define(RESULT, `RESULT_VAL([[ (struct f_val) { .type = $1, .val.$2 = $3 } ]])')
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m4_define(RESULT_VAL, `FID_INTERPRET_BODY()do { res = $1; RESULT_OK; } while (0)FID_ALL()')
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m4_define(SYMBOL, `FID_MEMBER(const struct symbol *, sym, sym,
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[[strcmp(f1->sym->name, f2->sym->name) || (f1->sym->class != f2->sym->class)]], symbol %s, item->sym->name, const struct symbol *sym = whati->sym)')
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m4_define(VAL, `FID_MEMBER(struct f_val $1, val, val m4_ifelse($1,,,[0]), [[!val_same(&f1->val, &f2->val)]], value %s, val_dump(&item->val),)')
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m4_define(FRET, `FID_MEMBER(enum filter_return, fret, fret, f1->fret != f2->fret, %s, filter_return_str(item->fret), enum filter_return fret = whati->fret)')
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m4_define(ECS, `FID_MEMBER(enum ec_subtype, ecs, ecs, f1->ecs != f2->ecs, ec subtype %s, ec_subtype_str(item->ecs), enum ec_subtype ecs = whati->ecs)')
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m4_define(RTC, `FID_MEMBER(const struct rtable_config *, rtc, rtc, [[strcmp(f1->rtc->name, f2->rtc->name)]], route table %s, item->rtc->name, struct rtable *table = whati->rtc->table)')
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m4_define(STATIC_ATTR, `FID_MEMBER(struct f_static_attr, sa, sa, f1->sa.sa_code != f2->sa.sa_code,,, struct f_static_attr sa = whati->sa)')
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m4_define(DYNAMIC_ATTR, `FID_MEMBER(struct f_dynamic_attr, da, da, f1->da.ea_code != f2->da.ea_code,,, struct f_dynamic_attr da = whati->da)')
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m4_define(COUNT, `FID_MEMBER(uint, count, count, f1->count != f2->count, number %u, item->count)')
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m4_define(TREE, `FID_MEMBER(const struct f_tree *, tree, tree, [[!same_tree(f1->tree, f2->tree)]], tree %p, item->tree, const struct f_tree *tree = whati->tree)')
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m4_define(STRING, `FID_MEMBER(const char *, s, s, [[strcmp(f1->s, f2->s)]], string \"%s\", item->s)')
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m4_define(FID_WR_PUT_LIST)
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m4_define(FID_WR_DROP_LIST)
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m4_define(FID_WR_IPUT, `m4_define([[FID_WR_CUR_DIRECT]], m4_eval(FID_WR_CUR_DIRECT + 1))m4_define([[FID_WR_PUT_LIST]], FID_WR_PUT_LIST[[]]FID_WR_DPUT($1)FID_WR_DPUT(FID_WR_CUR_DIRECT))m4_divert(FID_WR_CUR_DIRECT)')
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m4_define(FID_WR_IDROP, `m4_define([[FID_WR_CUR_DIRECT]], m4_eval(FID_WR_CUR_DIRECT + 1))m4_define([[FID_WR_DROP_LIST]], FID_WR_DROP_LIST[[]]FID_WR_DPUT($1)FID_WR_DPUT(FID_WR_CUR_DIRECT))m4_divert(FID_WR_CUR_DIRECT)')
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m4_define(FID_WR_DIRECT, `m4_define([[FID_WR_CUR_DIRECT]],$1)m4_ifelse(TARGET,[[$2]],[[m4_define([[FID_WR_PUT]], [[FID_WR_IPUT($]][[@)]])m4_define([[FID_WR_PUT_LIST]],FID_WR_PUT_LIST[[]]FID_WR_DPUT($1))]],[[m4_define([[FID_WR_PUT]], [[FID_WR_IDROP($]][[@)]])m4_define([[FID_WR_DROP_LIST]],FID_WR_DROP_LIST[[]]FID_WR_DPUT($1))]])m4_divert($1)')
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m4_dnl m4_define(FID_WR_CUR_DIRECT,m4_ifelse(TARGET,`C',800,TARGET,`H',900,m4_errprint(`Bad TARGET: 'TARGET)m4_m4exit(1)))
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m4_changequote([[,]])
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FID_WR_DIRECT(700,I)
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FID_WR_PUT(10)
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FID_WR_DIRECT(800,C)
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#include "nest/bird.h"
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#include "filter/filter.h"
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#include "filter/f-inst.h"
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/* Instruction codes to string */
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static const char * const f_instruction_name_str[] = {
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FID_WR_PUT(5)
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};
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const char *
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f_instruction_name(enum f_instruction_code fi)
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{
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if (fi < (sizeof(f_instruction_name_str) / sizeof(f_instruction_name_str[0])))
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return f_instruction_name_str[fi];
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else
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bug("Got unknown instruction code: %d", fi);
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}
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/* Instruction constructors */
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FID_WR_PUT(3)
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/* Line dumpers */
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#define INDENT (((const char *) f_dump_line_indent_str) + sizeof(f_dump_line_indent_str) - (indent) - 1)
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static const char f_dump_line_indent_str[] = " ";
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FID_WR_PUT(6)
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void f_dump_line(const struct f_line *dest, uint indent)
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{
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if (!dest) {
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debug("%sNo filter line (NULL)\n", INDENT);
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return;
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}
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debug("%sFilter line %p (len=%u)\n", INDENT, dest, dest->len);
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for (uint i=0; i<dest->len; i++) {
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const struct f_line_item *item = &dest->items[i];
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debug("%sInstruction %s at line %u\n", INDENT, f_instruction_name(item->fi_code), item->lineno);
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switch (item->fi_code) {
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FID_WR_PUT(7)
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default: bug("Unknown instruction %x in f_dump_line", item->fi_code);
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}
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}
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debug("%sFilter line %p dump done\n", INDENT, dest);
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}
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/* Linearize */
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static uint
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linearize(struct f_line *dest, const struct f_inst *what_, uint pos)
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{
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for ( ; what_; what_ = what_->next) {
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switch (what_->fi_code) {
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FID_WR_PUT(8)
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}
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pos++;
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}
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return pos;
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}
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struct f_line *
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f_linearize_concat(const struct f_inst * const inst[], uint count)
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{
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uint len = 0;
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for (uint i=0; i<count; i++)
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for (const struct f_inst *what = inst[i]; what; what = what->next)
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len += what->size;
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struct f_line *out = cfg_allocz(sizeof(struct f_line) + sizeof(struct f_line_item)*len);
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for (uint i=0; i<count; i++)
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out->len = linearize(out, inst[i], out->len);
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#if DEBUGGING
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f_dump_line(out, 0);
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#endif
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return out;
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}
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/* Filter line comparison */
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int
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f_same(const struct f_line *fl1, const struct f_line *fl2)
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{
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if ((!fl1) && (!fl2))
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return 1;
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if ((!fl1) || (!fl2))
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return 0;
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if (fl1->len != fl2->len)
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return 0;
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for (uint i=0; i<fl1->len; i++) {
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#define f1_ (&(fl1->items[i]))
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#define f2_ (&(fl2->items[i]))
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if (f1_->fi_code != f2_->fi_code)
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return 0;
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if (f1_->flags != f2_->flags)
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return 0;
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switch(f1_->fi_code) {
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FID_WR_PUT(9)
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}
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}
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#undef f1_
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#undef f2_
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return 1;
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}
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FID_WR_DIRECT(900,H)
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/* Filter instruction codes */
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enum f_instruction_code {
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FID_WR_PUT(4)
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} PACKED;
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/* Filter instruction structure for config */
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struct f_inst {
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struct f_inst *next; /* Next instruction */
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enum f_instruction_code fi_code; /* Instruction code */
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int size; /* How many instructions are underneath */
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int lineno; /* Line number */
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union {
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FID_WR_PUT(1)
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};
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};
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/* Filter line item */
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struct f_line_item {
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enum f_instruction_code fi_code; /* What to do */
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enum f_instruction_flags flags; /* Flags, instruction-specific */
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uint lineno; /* Where */
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union {
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FID_WR_PUT(2)
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};
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};
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/* Instruction constructors */
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FID_WR_PUT(3)
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m4_divert(-1)
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m4_changequote(`,')
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m4_m4wrap(`INST_FLUSH()m4_define(FID_WR_DPUT, [[m4_undivert($1)]])m4_divert(0)FID_WR_PUT_LIST[[]]m4_divert(-1)FID_WR_DROP_LIST[[]]')
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m4_changequote([[,]])
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