/usr/include/octave-4.2.2/octave/jit-ir.h is in liboctave-dev 4.2.2-1ubuntu1.
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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 | /*
Copyright (C) 2012-2017 Max Brister
This file is part of Octave.
Octave is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3 of the License, or (at your
option) any later version.
Octave is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with Octave; see the file COPYING. If not, see
<http://www.gnu.org/licenses/>.
*/
// Author: Max Brister <max@2bass.com>
#if ! defined (octave_jit_ir_h)
#define octave_jit_ir_h 1
#include "octave-config.h"
#if defined (HAVE_LLVM)
#include <list>
#include <stack>
#include <set>
#include "jit-typeinfo.h"
// The low level octave jit ir
// this ir is close to llvm, but contains information for doing type inference.
// We convert the octave parse tree to this IR directly.
#define JIT_VISIT_IR_NOTEMPLATE \
JIT_METH(block); \
JIT_METH(branch); \
JIT_METH(cond_branch); \
JIT_METH(call); \
JIT_METH(extract_argument); \
JIT_METH(store_argument); \
JIT_METH(return); \
JIT_METH(phi); \
JIT_METH(variable); \
JIT_METH(error_check); \
JIT_METH(assign) \
JIT_METH(argument) \
JIT_METH(magic_end)
#define JIT_VISIT_IR_CONST \
JIT_METH(const_bool); \
JIT_METH(const_scalar); \
JIT_METH(const_complex); \
JIT_METH(const_index); \
JIT_METH(const_string); \
JIT_METH(const_range)
#define JIT_VISIT_IR_CLASSES \
JIT_VISIT_IR_NOTEMPLATE \
JIT_VISIT_IR_CONST
// forward declare all ir classes
#define JIT_METH(cname) \
class jit_ ## cname;
JIT_VISIT_IR_NOTEMPLATE
#undef JIT_METH
// ABCs which aren't included in JIT_VISIT_IR_ALL
class jit_instruction;
class jit_terminator;
template <typename T, jit_type *(*EXTRACT_T)(void), typename PASS_T = T,
bool QUOTE=false>
class jit_const;
typedef jit_const<bool, jit_typeinfo::get_bool> jit_const_bool;
typedef jit_const<double, jit_typeinfo::get_scalar> jit_const_scalar;
typedef jit_const<Complex, jit_typeinfo::get_complex> jit_const_complex;
typedef jit_const<octave_idx_type, jit_typeinfo::get_index> jit_const_index;
typedef jit_const<std::string, jit_typeinfo::get_string, const std::string&,
true> jit_const_string;
typedef jit_const<jit_range, jit_typeinfo::get_range, const jit_range&>
jit_const_range;
class jit_ir_walker;
class jit_use;
// Creates and tracks memory for jit_value and subclasses.
// Memory managment is simple, all values that are created live as long as the
// factory.
class
jit_factory
{
typedef std::list<jit_value *> value_list;
public:
~jit_factory (void);
const value_list& constants (void) const { return mconstants; }
template <typename T>
T *create (void)
{
T *ret = new T ();
track_value (ret);
return ret;
}
#define DECL_ARG(n) const ARG ## n& arg ## n
#define JIT_CREATE(N) \
template <typename T, OCT_MAKE_DECL_LIST (typename, ARG, N)> \
T *create (OCT_MAKE_LIST (DECL_ARG, N)) \
{ \
T *ret = new T (OCT_MAKE_ARG_LIST (arg, N)); \
track_value (ret); \
return ret; \
}
JIT_CREATE (1)
JIT_CREATE (2)
JIT_CREATE (3)
JIT_CREATE (4)
#undef JIT_CREATE
#undef DECL_ARG
private:
void track_value (jit_value *v);
value_list all_values;
value_list mconstants;
};
// A list of basic blocks (jit_block) which form some body of code.
//
// We do not directly inherit from std::list because we need to update the
// blocks stashed location in push_back and insert.
class
jit_block_list
{
public:
typedef std::list<jit_block *>::iterator iterator;
typedef std::list<jit_block *>::const_iterator const_iterator;
jit_block *back (void) const { return mlist.back (); }
iterator begin (void) { return mlist.begin (); }
const_iterator begin (void) const { return mlist.begin (); }
iterator end (void) { return mlist.end (); }
const_iterator end (void) const { return mlist.end (); }
iterator erase (iterator iter) { return mlist.erase (iter); }
jit_block *front (void) const { return mlist.front (); }
void insert_after (iterator iter, jit_block *ablock);
void insert_after (jit_block *loc, jit_block *ablock);
void insert_before (iterator iter, jit_block *ablock);
void insert_before (jit_block *loc, jit_block *ablock);
void label (void);
std::ostream& print (std::ostream& os, const std::string& header) const;
std::ostream& print_dom (std::ostream& os) const;
void push_back (jit_block *b);
private:
std::list<jit_block *> mlist;
};
std::ostream& operator<<(std::ostream& os, const jit_block_list& blocks);
class
jit_value : public jit_internal_list<jit_value, jit_use>
{
public:
jit_value (void) : llvm_value (0), ty (0), mlast_use (0),
min_worklist (false) { }
virtual ~jit_value (void);
bool in_worklist (void) const
{
return min_worklist;
}
void stash_in_worklist (bool ain_worklist)
{
min_worklist = ain_worklist;
}
// The block of the first use which is not a jit_error_check
// So this is not necessarily first_use ()->parent ().
jit_block *first_use_block (void);
// replace all uses with
virtual void replace_with (jit_value *value);
jit_type *type (void) const { return ty; }
llvm::Type *type_llvm (void) const
{
return ty ? ty->to_llvm () : 0;
}
const std::string& type_name (void) const
{
return ty->name ();
}
void stash_type (jit_type *new_ty) { ty = new_ty; }
std::string print_string (void)
{
std::stringstream ss;
print (ss);
return ss.str ();
}
jit_instruction *last_use (void) const { return mlast_use; }
void stash_last_use (jit_instruction *alast_use)
{
mlast_use = alast_use;
}
virtual bool needs_release (void) const { return false; }
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const = 0;
virtual std::ostream& short_print (std::ostream& os) const
{ return print (os); }
virtual void accept (jit_ir_walker& walker) = 0;
bool has_llvm (void) const
{
return llvm_value;
}
llvm::Value *to_llvm (void) const
{
assert (llvm_value);
return llvm_value;
}
void stash_llvm (llvm::Value *compiled)
{
llvm_value = compiled;
}
protected:
std::ostream& print_indent (std::ostream& os, size_t indent = 0) const
{
for (size_t i = 0; i < indent * 8; ++i)
os << " ";
return os;
}
llvm::Value *llvm_value;
private:
jit_type *ty;
jit_instruction *mlast_use;
bool min_worklist;
};
std::ostream& operator<< (std::ostream& os, const jit_value& value);
std::ostream& jit_print (std::ostream& os, jit_value *avalue);
class
jit_use : public jit_internal_node<jit_value, jit_use>
{
public:
// some compilers don't allow us to use jit_internal_node without template
// paremeters
typedef jit_internal_node<jit_value, jit_use> PARENT_T;
jit_use (void) : muser (0), mindex (0) { }
// we should really have a move operator, but not until c++11 :(
jit_use (const jit_use& use) : muser (0), mindex (0)
{
*this = use;
}
jit_use& operator= (const jit_use& use)
{
stash_value (use.value (), use.user (), use.index ());
return *this;
}
size_t index (void) const { return mindex; }
jit_instruction *user (void) const { return muser; }
jit_block *user_parent (void) const;
std::list<jit_block *> user_parent_location (void) const;
void stash_value (jit_value *avalue, jit_instruction *auser = 0,
size_t aindex = -1)
{
PARENT_T::stash_value (avalue);
mindex = aindex;
muser = auser;
}
private:
jit_instruction *muser;
size_t mindex;
};
class
jit_instruction : public jit_value
{
public:
// FIXME: this code could be so much pretier with varadic templates...
jit_instruction (void) : mid (next_id ()), mparent (0)
{ }
jit_instruction (size_t nargs) : mid (next_id ()), mparent (0)
{
already_infered.reserve (nargs);
marguments.reserve (nargs);
}
#define STASH_ARG(i) stash_argument (i, arg ## i);
#define JIT_INSTRUCTION_CTOR(N) \
jit_instruction (OCT_MAKE_DECL_LIST (jit_value *, arg, N)) \
: already_infered (N), marguments (N), mid (next_id ()), mparent (0) \
{ \
OCT_ITERATE_MACRO (STASH_ARG, N); \
}
JIT_INSTRUCTION_CTOR(1)
JIT_INSTRUCTION_CTOR(2)
JIT_INSTRUCTION_CTOR(3)
JIT_INSTRUCTION_CTOR(4)
#undef STASH_ARG
#undef JIT_INSTRUCTION_CTOR
jit_instruction (const std::vector<jit_value *>& aarguments)
: already_infered (aarguments.size ()), marguments (aarguments.size ()),
mid (next_id ()), mparent (0)
{
for (size_t i = 0; i < aarguments.size (); ++i)
stash_argument (i, aarguments[i]);
}
static void reset_ids (void)
{
next_id (true);
}
jit_value *argument (size_t i) const
{
return marguments[i].value ();
}
llvm::Value *argument_llvm (size_t i) const
{
assert (argument (i));
return argument (i)->to_llvm ();
}
jit_type *argument_type (size_t i) const
{
return argument (i)->type ();
}
llvm::Type *argument_type_llvm (size_t i) const
{
assert (argument (i));
return argument_type (i)->to_llvm ();
}
std::ostream& print_argument (std::ostream& os, size_t i) const
{
if (argument (i))
return argument (i)->short_print (os);
else
return os << "NULL";
}
void stash_argument (size_t i, jit_value *arg)
{
marguments[i].stash_value (arg, this, i);
}
void push_argument (jit_value *arg)
{
marguments.push_back (jit_use ());
stash_argument (marguments.size () - 1, arg);
already_infered.push_back (0);
}
size_t argument_count (void) const
{
return marguments.size ();
}
void resize_arguments (size_t acount, jit_value *adefault = 0)
{
size_t old = marguments.size ();
marguments.resize (acount);
already_infered.resize (acount);
if (adefault)
for (size_t i = old; i < acount; ++i)
stash_argument (i, adefault);
}
const std::vector<jit_use>& arguments (void) const { return marguments; }
// argument types which have been infered already
const std::vector<jit_type *>& argument_types (void) const
{ return already_infered; }
virtual void push_variable (void) { }
virtual void pop_variable (void) { }
virtual void construct_ssa (void)
{
do_construct_ssa (0, argument_count ());
}
virtual bool infer (void) { return false; }
void remove (void);
virtual std::ostream& short_print (std::ostream& os) const;
jit_block *parent (void) const { return mparent; }
std::list<jit_instruction *>::iterator location (void) const
{
return mlocation;
}
llvm::BasicBlock *parent_llvm (void) const;
void stash_parent (jit_block *aparent,
std::list<jit_instruction *>::iterator alocation)
{
mparent = aparent;
mlocation = alocation;
}
size_t id (void) const { return mid; }
protected:
// Do SSA replacement on arguments in [start, end)
void do_construct_ssa (size_t start, size_t end);
std::vector<jit_type *> already_infered;
private:
static size_t next_id (bool reset = false)
{
static size_t ret = 0;
if (reset)
return ret = 0;
return ret++;
}
std::vector<jit_use> marguments;
size_t mid;
jit_block *mparent;
std::list<jit_instruction *>::iterator mlocation;
};
// defnie accept methods for subclasses
#define JIT_VALUE_ACCEPT \
virtual void accept (jit_ir_walker& walker);
// for use as a dummy argument during conversion to LLVM
class
jit_argument : public jit_value
{
public:
jit_argument (jit_type *atype, llvm::Value *avalue)
{
stash_type (atype);
stash_llvm (avalue);
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent);
return jit_print (os, type ()) << ": DUMMY";
}
JIT_VALUE_ACCEPT;
};
template <typename T, jit_type *(*EXTRACT_T)(void), typename PASS_T, bool QUOTE>
class
jit_const : public jit_value
{
public:
typedef PASS_T pass_t;
jit_const (PASS_T avalue) : mvalue (avalue)
{
stash_type (EXTRACT_T ());
}
PASS_T value (void) const { return mvalue; }
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent);
jit_print (os, type ()) << ": ";
if (QUOTE)
os << "\"";
os << mvalue;
if (QUOTE)
os << "\"";
return os;
}
JIT_VALUE_ACCEPT;
private:
T mvalue;
};
class jit_phi_incomming;
class
jit_block : public jit_value, public jit_internal_list<jit_block,
jit_phi_incomming>
{
typedef jit_internal_list<jit_block, jit_phi_incomming> ILIST_T;
public:
typedef std::list<jit_instruction *> instruction_list;
typedef instruction_list::iterator iterator;
typedef instruction_list::const_iterator const_iterator;
typedef std::set<jit_block *> df_set;
typedef df_set::const_iterator df_iterator;
static const size_t NO_ID = static_cast<size_t> (-1);
jit_block (const std::string& aname, size_t avisit_count = 0)
: mvisit_count (avisit_count), mid (NO_ID), idom (0), mname (aname),
malive (false)
{ }
virtual void replace_with (jit_value *value);
void replace_in_phi (jit_block *ablock, jit_block *with);
// we have a new internal list, but we want to stay compatible with jit_value
jit_use *first_use (void) const { return jit_value::first_use (); }
size_t use_count (void) const { return jit_value::use_count (); }
// if a block is alive, then it might be visited during execution
bool alive (void) const { return malive; }
void mark_alive (void) { malive = true; }
// If we can merge with a successor, do so and return the now empty block
jit_block *maybe_merge ();
// merge another block into this block, leaving the merge block empty
void merge (jit_block& merge);
const std::string& name (void) const { return mname; }
jit_instruction *prepend (jit_instruction *instr);
jit_instruction *prepend_after_phi (jit_instruction *instr);
template <typename T>
T *append (T *instr)
{
internal_append (instr);
return instr;
}
jit_instruction *insert_before (iterator loc, jit_instruction *instr);
jit_instruction *insert_before (jit_instruction *loc, jit_instruction *instr)
{
return insert_before (loc->location (), instr);
}
jit_instruction *insert_after (iterator loc, jit_instruction *instr);
jit_instruction *insert_after (jit_instruction *loc, jit_instruction *instr)
{
return insert_after (loc->location (), instr);
}
iterator remove (iterator iter)
{
jit_instruction *instr = *iter;
iter = instructions.erase (iter);
instr->stash_parent (0, instructions.end ());
return iter;
}
jit_terminator *terminator (void) const;
// is the jump from pred alive?
bool branch_alive (jit_block *asucc) const;
jit_block *successor (size_t i) const;
size_t successor_count (void) const;
iterator begin (void) { return instructions.begin (); }
const_iterator begin (void) const { return instructions.begin (); }
iterator end (void) { return instructions.end (); }
const_iterator end (void) const { return instructions.end (); }
iterator phi_begin (void);
iterator phi_end (void);
iterator nonphi_begin (void);
// must label before id is valid
size_t id (void) const { return mid; }
// dominance frontier
const df_set& df (void) const { return mdf; }
df_iterator df_begin (void) const { return mdf.begin (); }
df_iterator df_end (void) const { return mdf.end (); }
// label with a RPO walk
void label (void)
{
size_t number = 0;
label (mvisit_count, number);
}
void label (size_t avisit_count, size_t& number);
// See for idom computation algorithm
// Cooper, Keith D.; Harvey, Timothy J; and Kennedy, Ken (2001).
// "A Simple, Fast Dominance Algorithm"
void compute_idom (jit_block& entry_block)
{
bool changed;
entry_block.idom = &entry_block;
do
changed = update_idom (mvisit_count);
while (changed);
}
// compute dominance frontier
void compute_df (void)
{
compute_df (mvisit_count);
}
void create_dom_tree (void)
{
create_dom_tree (mvisit_count);
}
jit_block *dom_successor (size_t idx) const
{
return dom_succ[idx];
}
size_t dom_successor_count (void) const
{
return dom_succ.size ();
}
// call pop_varaible on all instructions
void pop_all (void);
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const;
jit_block *maybe_split (jit_factory& factory, jit_block_list& blocks,
jit_block *asuccessor);
jit_block *maybe_split (jit_factory& factory, jit_block_list& blocks,
jit_block& asuccessor)
{
return maybe_split (factory, blocks, &asuccessor);
}
// print dominator infomration
std::ostream& print_dom (std::ostream& os) const;
virtual std::ostream& short_print (std::ostream& os) const
{
os << mname;
if (mid != NO_ID)
os << mid;
else
os << "!";
return os;
}
llvm::BasicBlock *to_llvm (void) const;
std::list<jit_block *>::iterator location (void) const
{ return mlocation; }
void stash_location (std::list<jit_block *>::iterator alocation)
{ mlocation = alocation; }
// used to prevent visiting the same node twice in the graph
size_t visit_count (void) const { return mvisit_count; }
// check if this node has been visited yet at the given visit count.
// If we have not been visited yet, mark us as visited.
bool visited (size_t avisit_count)
{
if (mvisit_count <= avisit_count)
{
mvisit_count = avisit_count + 1;
return false;
}
return true;
}
jit_instruction *front (void) { return instructions.front (); }
jit_instruction *back (void) { return instructions.back (); }
JIT_VALUE_ACCEPT;
private:
void internal_append (jit_instruction *instr);
void compute_df (size_t avisit_count);
bool update_idom (size_t avisit_count);
void create_dom_tree (size_t avisit_count);
static jit_block *idom_intersect (jit_block *i, jit_block *j);
size_t mvisit_count;
size_t mid;
jit_block *idom;
df_set mdf;
std::vector<jit_block *> dom_succ;
std::string mname;
instruction_list instructions;
bool malive;
std::list<jit_block *>::iterator mlocation;
};
// keeps track of phi functions that use a block on incomming edges
class
jit_phi_incomming : public jit_internal_node<jit_block, jit_phi_incomming>
{
public:
jit_phi_incomming (void) : muser (0) { }
jit_phi_incomming (jit_phi *auser) : muser (auser) { }
jit_phi_incomming (const jit_phi_incomming& use)
{
*this = use;
}
jit_phi_incomming& operator= (const jit_phi_incomming& use)
{
stash_value (use.value ());
muser = use.muser;
return *this;
}
jit_phi *user (void) const { return muser; }
jit_block *user_parent (void) const;
private:
jit_phi *muser;
};
// A non-ssa variable
class
jit_variable : public jit_value
{
public:
jit_variable (const std::string& aname) : mname (aname), mlast_use (0) { }
const std::string &name (void) const { return mname; }
// manipulate the value_stack, for use during SSA construction. The top of
// the value stack represents the current value for this variable
bool has_top (void) const
{
return ! value_stack.empty ();
}
jit_value *top (void) const
{
return value_stack.top ();
}
void push (jit_instruction *v)
{
value_stack.push (v);
mlast_use = v;
}
void pop (void)
{
value_stack.pop ();
}
jit_instruction *last_use (void) const
{
return mlast_use;
}
void stash_last_use (jit_instruction *instr)
{
mlast_use = instr;
}
// blocks in which we are used
void use_blocks (jit_block::df_set& result)
{
jit_use *use = first_use ();
while (use)
{
result.insert (use->user_parent ());
use = use->next ();
}
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
return print_indent (os, indent) << mname;
}
JIT_VALUE_ACCEPT;
private:
std::string mname;
std::stack<jit_value *> value_stack;
jit_instruction *mlast_use;
};
class
jit_assign_base : public jit_instruction
{
public:
jit_assign_base (jit_variable *adest) : jit_instruction (), mdest (adest) { }
jit_assign_base (jit_variable *adest, size_t npred) : jit_instruction (npred),
mdest (adest) { }
jit_assign_base (jit_variable *adest, jit_value *arg0, jit_value *arg1)
: jit_instruction (arg0, arg1), mdest (adest) { }
jit_variable *dest (void) const { return mdest; }
virtual void push_variable (void)
{
mdest->push (this);
}
virtual void pop_variable (void)
{
mdest->pop ();
}
virtual std::ostream& short_print (std::ostream& os) const
{
if (type ())
jit_print (os, type ()) << ": ";
dest ()->short_print (os);
return os << "#" << id ();
}
private:
jit_variable *mdest;
};
class
jit_assign : public jit_assign_base
{
public:
jit_assign (jit_variable *adest, jit_value *asrc)
: jit_assign_base (adest, adest, asrc), martificial (false) { }
jit_value *overwrite (void) const
{
return argument (0);
}
jit_value *src (void) const
{
return argument (1);
}
// variables don't get modified in an SSA, but COW requires we modify
// variables. An artificial assign is for when a variable gets modified. We
// need an assign in the SSA, but the reference counts shouldn't be updated.
bool artificial (void) const { return martificial; }
void mark_artificial (void) { martificial = true; }
virtual bool infer (void)
{
jit_type *stype = src ()->type ();
if (stype != type())
{
stash_type (stype);
return true;
}
return false;
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent) << *this << " = " << *src ();
if (artificial ())
os << " [artificial]";
return os;
}
JIT_VALUE_ACCEPT;
private:
bool martificial;
};
class
jit_phi : public jit_assign_base
{
public:
jit_phi (jit_variable *adest, size_t npred)
: jit_assign_base (adest, npred)
{
mincomming.reserve (npred);
}
// removes arguments form dead incomming jumps
bool prune (void);
void add_incomming (jit_block *from, jit_value *value)
{
push_argument (value);
mincomming.push_back (jit_phi_incomming (this));
mincomming[mincomming.size () - 1].stash_value (from);
}
jit_block *incomming (size_t i) const
{
return mincomming[i].value ();
}
llvm::BasicBlock *incomming_llvm (size_t i) const
{
return incomming (i)->to_llvm ();
}
virtual void construct_ssa (void) { }
virtual bool infer (void);
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
std::stringstream ss;
print_indent (ss, indent);
short_print (ss) << " phi ";
std::string ss_str = ss.str ();
std::string indent_str (ss_str.size (), ' ');
os << ss_str;
for (size_t i = 0; i < argument_count (); ++i)
{
if (i > 0)
os << indent_str;
os << "| ";
os << *incomming (i) << " -> ";
os << *argument (i);
if (i + 1 < argument_count ())
os << std::endl;
}
return os;
}
llvm::PHINode *to_llvm (void) const;
JIT_VALUE_ACCEPT;
private:
std::vector<jit_phi_incomming> mincomming;
};
class
jit_terminator : public jit_instruction
{
public:
#define JIT_TERMINATOR_CONST(N) \
jit_terminator (size_t asuccessor_count, \
OCT_MAKE_DECL_LIST (jit_value *, arg, N)) \
: jit_instruction (OCT_MAKE_ARG_LIST (arg, N)), \
malive (asuccessor_count, false) { }
JIT_TERMINATOR_CONST (1)
JIT_TERMINATOR_CONST (2)
JIT_TERMINATOR_CONST (3)
#undef JIT_TERMINATOR_CONST
jit_block *successor (size_t idx = 0) const
{
return static_cast<jit_block *> (argument (idx));
}
llvm::BasicBlock *successor_llvm (size_t idx = 0) const
{
return successor (idx)->to_llvm ();
}
size_t successor_index (const jit_block *asuccessor) const;
std::ostream& print_successor (std::ostream& os, size_t idx = 0) const
{
if (alive (idx))
os << "[live] ";
else
os << "[dead] ";
return successor (idx)->short_print (os);
}
// Check if the jump to successor is live
bool alive (const jit_block *asuccessor) const
{
return alive (successor_index (asuccessor));
}
bool alive (size_t idx) const { return malive[idx]; }
bool alive (int idx) const { return malive[idx]; }
size_t successor_count (void) const { return malive.size (); }
virtual bool infer (void);
llvm::TerminatorInst *to_llvm (void) const;
protected:
virtual bool check_alive (size_t) const { return true; }
private:
std::vector<bool> malive;
};
class
jit_branch : public jit_terminator
{
public:
jit_branch (jit_block *succ) : jit_terminator (1, succ) { }
virtual size_t successor_count (void) const { return 1; }
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent) << "branch: ";
return print_successor (os);
}
JIT_VALUE_ACCEPT;
};
class
jit_cond_branch : public jit_terminator
{
public:
jit_cond_branch (jit_value *c, jit_block *ctrue, jit_block *cfalse)
: jit_terminator (2, ctrue, cfalse, c) { }
jit_value *cond (void) const { return argument (2); }
std::ostream& print_cond (std::ostream& os) const
{
return cond ()->short_print (os);
}
llvm::Value *cond_llvm (void) const
{
return cond ()->to_llvm ();
}
virtual size_t successor_count (void) const { return 2; }
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent) << "cond_branch: ";
print_cond (os) << ", ";
print_successor (os, 0) << ", ";
return print_successor (os, 1);
}
JIT_VALUE_ACCEPT;
};
class
jit_call : public jit_instruction
{
public:
jit_call (const jit_operation& (*aoperation) (void))
: moperation (aoperation ())
{
const jit_function& ol = overload ();
if (ol.valid ())
stash_type (ol.result ());
}
jit_call (const jit_operation& aoperation) : moperation (aoperation)
{
const jit_function& ol = overload ();
if (ol.valid ())
stash_type (ol.result ());
}
#define JIT_CALL_CONST(N) \
jit_call (const jit_operation& aoperation, \
OCT_MAKE_DECL_LIST (jit_value *, arg, N)) \
: jit_instruction (OCT_MAKE_ARG_LIST (arg, N)), moperation (aoperation) { } \
\
jit_call (const jit_operation& (*aoperation) (void), \
OCT_MAKE_DECL_LIST (jit_value *, arg, N)) \
: jit_instruction (OCT_MAKE_ARG_LIST (arg, N)), moperation (aoperation ()) \
{ }
JIT_CALL_CONST (1)
JIT_CALL_CONST (2)
JIT_CALL_CONST (3)
JIT_CALL_CONST (4)
#undef JIT_CALL_CONST
jit_call (const jit_operation& aoperation,
const std::vector<jit_value *>& args)
: jit_instruction (args), moperation (aoperation)
{ }
const jit_operation& operation (void) const { return moperation; }
bool can_error (void) const
{
return overload ().can_error ();
}
const jit_function& overload (void) const
{
return moperation.overload (argument_types ());
}
virtual bool needs_release (void) const;
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent);
if (use_count ())
short_print (os) << " = ";
os << "call " << moperation.name () << " (";
for (size_t i = 0; i < argument_count (); ++i)
{
print_argument (os, i);
if (i + 1 < argument_count ())
os << ", ";
}
return os << ")";
}
virtual bool infer (void);
JIT_VALUE_ACCEPT;
private:
const jit_operation& moperation;
};
// FIXME: This is just ugly...
// checks error_state, if error_state is false then goto the normal branch,
// otherwise goto the error branch
class
jit_error_check : public jit_terminator
{
public:
// Which variable is the error check for?
enum variable
{
var_error_state,
var_interrupt
};
static std::string variable_to_string (variable v);
jit_error_check (variable var, jit_call *acheck_for, jit_block *normal,
jit_block *error)
: jit_terminator (2, error, normal, acheck_for), mvariable (var) { }
jit_error_check (variable var, jit_block *normal, jit_block *error)
: jit_terminator (2, error, normal), mvariable (var) { }
variable check_variable (void) const { return mvariable; }
bool has_check_for (void) const
{
return argument_count () == 3;
}
jit_call *check_for (void) const
{
assert (has_check_for ());
return static_cast<jit_call *> (argument (2));
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const;
JIT_VALUE_ACCEPT;
protected:
virtual bool check_alive (size_t idx) const
{
if (! has_check_for ())
return true;
return idx == 1 ? true : check_for ()->can_error ();
}
private:
variable mvariable;
};
// for now only handles the 1D case
class
jit_magic_end : public jit_instruction
{
public:
class
context
{
public:
context (void) : value (0), index (0), count (0)
{ }
context (jit_factory& factory, jit_value *avalue, size_t aindex,
size_t acount);
jit_value *value;
jit_const_index *index;
jit_const_index *count;
};
jit_magic_end (const std::vector<context>& full_context);
virtual bool infer (void);
const jit_function& overload () const;
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const;
context resolve_context (void) const;
virtual std::ostream& short_print (std::ostream& os) const
{
return os << "magic_end" << "#" << id ();
}
JIT_VALUE_ACCEPT;
private:
std::vector<context> contexts;
};
class
jit_extract_argument : public jit_assign_base
{
public:
jit_extract_argument (jit_type *atype, jit_variable *adest)
: jit_assign_base (adest)
{
stash_type (atype);
}
const std::string& name (void) const
{
return dest ()->name ();
}
const jit_function& overload (void) const
{
return jit_typeinfo::cast (type (), jit_typeinfo::get_any ());
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent);
return short_print (os) << " = extract " << name ();
}
JIT_VALUE_ACCEPT;
};
class
jit_store_argument : public jit_instruction
{
public:
jit_store_argument (jit_variable *var)
: jit_instruction (var), dest (var)
{ }
const std::string& name (void) const
{
return dest->name ();
}
const jit_function& overload (void) const
{
return jit_typeinfo::cast (jit_typeinfo::get_any (), result_type ());
}
jit_value *result (void) const
{
return argument (0);
}
jit_type *result_type (void) const
{
return result ()->type ();
}
llvm::Value *result_llvm (void) const
{
return result ()->to_llvm ();
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
jit_value *res = result ();
print_indent (os, indent) << "store ";
dest->short_print (os);
if (! isa<jit_variable> (res))
{
os << " = ";
res->short_print (os);
}
return os;
}
JIT_VALUE_ACCEPT;
private:
jit_variable *dest;
};
class
jit_return : public jit_instruction
{
public:
jit_return (void) { }
jit_return (jit_value *retval) : jit_instruction (retval) { }
jit_value *result (void) const
{
return argument_count () ? argument (0) : 0;
}
jit_type *result_type (void) const
{
jit_value *res = result ();
return res ? res->type () : 0;
}
virtual std::ostream& print (std::ostream& os, size_t indent = 0) const
{
print_indent (os, indent) << "return";
if (result ())
os << " " << *result ();
return os;
}
JIT_VALUE_ACCEPT;
};
class
jit_ir_walker
{
public:
virtual ~jit_ir_walker () { }
#define JIT_METH(clname) \
virtual void visit (jit_ ## clname&) = 0;
JIT_VISIT_IR_CLASSES;
#undef JIT_METH
};
template <typename T, jit_type *(*EXTRACT_T)(void), typename PASS_T, bool QUOTE>
void
jit_const<T, EXTRACT_T, PASS_T, QUOTE>::accept (jit_ir_walker& walker)
{
walker.visit (*this);
}
#undef JIT_VALUE_ACCEPT
#endif
#endif
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