/* * Copyright 2013 Vadim Girlin * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * on the rights to use, copy, modify, merge, publish, distribute, sub * license, and/or sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE * USE OR OTHER DEALINGS IN THE SOFTWARE. * * Authors: * Vadim Girlin */ #ifndef R600_SB_IR_H_ #define R600_SB_IR_H_ #include #include #include #include #include #include "sb_bc.h" namespace r600_sb { enum special_regs { SV_ALU_PRED = 128, SV_EXEC_MASK, SV_AR_INDEX, SV_VALID_MASK, SV_GEOMETRY_EMIT, SV_LDS_RW, SV_LDS_OQA, SV_LDS_OQB, SV_SCRATCH }; class node; class value; class shader; struct sel_chan { unsigned id; sel_chan(unsigned id = 0) : id(id) {} sel_chan(unsigned sel, unsigned chan) : id(((sel << 2) | chan) + 1) {} unsigned sel() const { return sel(id); } unsigned chan() const {return chan(id); } operator unsigned() const {return id;} static unsigned sel(unsigned idx) { return (idx-1) >> 2; } static unsigned chan(unsigned idx) { return (idx-1) & 3; } sel_chan(unsigned bank, unsigned index, unsigned chan, alu_kcache_index_mode index_mode) : id(sel_chan((bank << 12) | index | ((unsigned)index_mode << 28), chan).id) {} unsigned kcache_index_mode() const { return sel() >> 28; } unsigned kcache_sel() const { return sel() & 0x0fffffffu; } unsigned kcache_bank() const { return kcache_sel() >> 12; } }; inline sb_ostream& operator <<(sb_ostream& o, sel_chan r) { static const char * ch = "xyzw"; o << r.sel() << "." << ch[r.chan()]; return o; } typedef std::vector vvec; class sb_pool { protected: static const unsigned SB_POOL_ALIGN = 8; static const unsigned SB_POOL_DEFAULT_BLOCK_SIZE = (1 << 16); typedef std::vector block_vector; unsigned block_size; block_vector blocks; unsigned total_size; public: sb_pool(unsigned block_size = SB_POOL_DEFAULT_BLOCK_SIZE) : block_size(block_size), blocks(), total_size() {} virtual ~sb_pool() { free_all(); } void* allocate(unsigned sz); protected: void free_all(); }; template > class sb_set { typedef std::vector data_vector; data_vector vec; public: typedef typename data_vector::iterator iterator; typedef typename data_vector::const_iterator const_iterator; sb_set() : vec() {} ~sb_set() { } iterator begin() { return vec.begin(); } iterator end() { return vec.end(); } const_iterator begin() const { return vec.begin(); } const_iterator end() const { return vec.end(); } void add_set(const sb_set& s) { data_vector t; t.reserve(vec.size() + s.vec.size()); std::set_union(vec.begin(), vec.end(), s.vec.begin(), s.vec.end(), std::inserter(t, t.begin()), Comp()); vec.swap(t); } iterator lower_bound(const V& v) { return std::lower_bound(vec.begin(), vec.end(), v, Comp()); } std::pair insert(const V& v) { iterator P = lower_bound(v); if (P != vec.end() && is_equal(*P, v)) return std::make_pair(P, false); return std::make_pair(vec.insert(P, v), true); } unsigned erase(const V& v) { iterator P = lower_bound(v); if (P == vec.end() || !is_equal(*P, v)) return 0; vec.erase(P); return 1; } void clear() { vec.clear(); } bool empty() { return vec.empty(); } bool is_equal(const V& v1, const V& v2) { return !Comp()(v1, v2) && !Comp()(v2, v1); } iterator find(const V& v) { iterator P = lower_bound(v); return (P != vec.end() && is_equal(*P, v)) ? P : vec.end(); } unsigned size() { return vec.size(); } void erase(iterator I) { vec.erase(I); } }; template > class sb_map { typedef std::pair datatype; struct Comp { bool operator()(const datatype &v1, const datatype &v2) { return KComp()(v1.first, v2.first); } }; typedef sb_set dataset; dataset set; public: sb_map() : set() {} typedef typename dataset::iterator iterator; iterator begin() { return set.begin(); } iterator end() { return set.end(); } void clear() { set.clear(); } V& operator[](const K& key) { datatype P = std::make_pair(key, V()); iterator F = set.find(P); if (F == set.end()) { return (*(set.insert(P).first)).second; } else { return (*F).second; } } std::pair insert(const datatype& d) { return set.insert(d); } iterator find(const K& key) { return set.find(std::make_pair(key, V())); } unsigned erase(const K& key) { return set.erase(std::make_pair(key, V())); } void erase(iterator I) { set.erase(I); } }; class sb_bitset { typedef uint32_t basetype; static const unsigned bt_bits = sizeof(basetype) << 3; std::vector data; unsigned bit_size; public: sb_bitset() : data(), bit_size() {} bool get(unsigned id); void set(unsigned id, bool bit = true); bool set_chk(unsigned id, bool bit = true); void clear(); void resize(unsigned size); unsigned size() { return bit_size; } unsigned find_bit(unsigned start = 0); void swap(sb_bitset & bs2); bool operator==(const sb_bitset &bs2); bool operator!=(const sb_bitset &bs2) { return !(*this == bs2); } sb_bitset& operator|=(const sb_bitset &bs2) { if (bit_size < bs2.bit_size) { resize(bs2.bit_size); } for (unsigned i = 0, c = std::min(data.size(), bs2.data.size()); i < c; ++i) { data[i] |= bs2.data[i]; } return *this; } sb_bitset& operator&=(const sb_bitset &bs2); sb_bitset& mask(const sb_bitset &bs2); friend sb_bitset operator|(const sb_bitset &b1, const sb_bitset &b2) { sb_bitset nbs(b1); nbs |= b2; return nbs; } }; enum value_kind { VLK_REG, VLK_REL_REG, VLK_SPECIAL_REG, VLK_TEMP, VLK_CONST, VLK_KCACHE, VLK_PARAM, VLK_SPECIAL_CONST, VLK_UNDEF }; class sb_value_pool : protected sb_pool { unsigned aligned_elt_size; public: sb_value_pool(unsigned elt_size, unsigned block_elts = 256) : sb_pool(block_elts * (aligned_elt_size = ((elt_size + SB_POOL_ALIGN - 1) & ~(SB_POOL_ALIGN - 1)))) {} virtual ~sb_value_pool() { delete_all(); } value* create(value_kind k, sel_chan regid, unsigned ver); value* operator[](unsigned id) { unsigned offset = id * aligned_elt_size; unsigned block_id; if (offset < block_size) { block_id = 0; } else { block_id = offset / block_size; offset = offset % block_size; } return (value*)((char*)blocks[block_id] + offset); } unsigned size() { return total_size / aligned_elt_size; } protected: void delete_all(); }; class sb_value_set { sb_bitset bs; public: sb_value_set() : bs() {} class iterator { sb_value_pool &vp; sb_value_set *s; unsigned nb; public: iterator(shader &sh, sb_value_set *s, unsigned nb = 0); iterator& operator++() { if (nb + 1 < s->bs.size()) nb = s->bs.find_bit(nb + 1); else nb = s->bs.size(); return *this; } bool operator !=(const iterator &i) { return s != i.s || nb != i.nb; } bool operator ==(const iterator &i) { return !(*this != i); } value* operator *() { return vp[nb]; } }; iterator begin(shader &sh) { return iterator(sh, this, bs.size() ? bs.find_bit(0) : 0); } iterator end(shader &sh) { return iterator(sh, this, bs.size()); } bool add_set_checked(sb_value_set & s2); void add_set(sb_value_set & s2) { if (bs.size() < s2.bs.size()) bs.resize(s2.bs.size()); bs |= s2.bs; } void remove_set(sb_value_set & s2); bool add_vec(vvec &vv); bool add_val(value *v); bool contains(value *v); bool remove_val(value *v); bool remove_vec(vvec &vv); void clear(); bool empty(); }; typedef sb_value_set val_set; struct gpr_array { sel_chan base_gpr; // original gpr sel_chan gpr; // assigned by regalloc unsigned array_size; gpr_array(sel_chan base_gpr, unsigned array_size) : base_gpr(base_gpr), array_size(array_size) {} unsigned hash() { return (base_gpr << 10) * array_size; } val_set interferences; vvec refs; bool is_dead(); }; typedef std::vector regarray_vec; enum value_flags { VLF_UNDEF = (1 << 0), VLF_READONLY = (1 << 1), VLF_DEAD = (1 << 2), VLF_PIN_REG = (1 << 3), VLF_PIN_CHAN = (1 << 4), // opposite to alu clause local value - goes through alu clause boundary // (can't use temp gpr, can't recolor in the alu scheduler, etc) VLF_GLOBAL = (1 << 5), VLF_FIXED = (1 << 6), VLF_PVPS = (1 << 7), VLF_PREALLOC = (1 << 8) }; inline value_flags operator |(value_flags l, value_flags r) { return (value_flags)((unsigned)l|(unsigned)r); } inline value_flags operator &(value_flags l, value_flags r) { return (value_flags)((unsigned)l&(unsigned)r); } inline value_flags operator ~(value_flags l) { return (value_flags)(~(unsigned)l); } inline value_flags& operator |=(value_flags &l, value_flags r) { l = l | r; return l; } inline value_flags& operator &=(value_flags &l, value_flags r) { l = l & r; return l; } sb_ostream& operator << (sb_ostream &o, value &v); typedef uint32_t value_hash; typedef std::list< node * > uselist; enum constraint_kind { CK_SAME_REG, CK_PACKED_BS, CK_PHI }; class shader; class sb_value_pool; struct ra_chunk; class ra_constraint; class value { protected: value(unsigned sh_id, value_kind k, sel_chan select, unsigned ver = 0) : kind(k), flags(), rel(), array(), version(ver), select(select), pin_gpr(select), gpr(), gvn_source(), ghash(), def(), adef(), uses(), constraint(), chunk(), literal_value(), uid(sh_id) {} ~value() { delete_uses(); } friend class sb_value_pool; public: value_kind kind; value_flags flags; vvec mdef; vvec muse; value *rel; gpr_array *array; unsigned version; sel_chan select; sel_chan pin_gpr; sel_chan gpr; value *gvn_source; value_hash ghash; node *def, *adef; uselist uses; ra_constraint *constraint; ra_chunk *chunk; literal literal_value; bool is_const() { return kind == VLK_CONST || kind == VLK_UNDEF; } bool is_AR() { return is_special_reg() && select == sel_chan(SV_AR_INDEX, 0); } bool is_geometry_emit() { return is_special_reg() && select == sel_chan(SV_GEOMETRY_EMIT, 0); } bool is_lds_access() { return is_special_reg() && select == sel_chan(SV_LDS_RW, 0); } bool is_lds_oq() { return is_special_reg() && (select == sel_chan(SV_LDS_OQA, 0) || select == sel_chan(SV_LDS_OQB, 0)); } node* any_def() { assert(!(def && adef)); return def ? def : adef; } value* gvalue() { value *v = this; while (v->gvn_source && v != v->gvn_source) // FIXME we really shouldn't have such chains v = v->gvn_source; return v; } bool is_scratch() { return is_special_reg() && select == sel_chan(SV_SCRATCH, 0); } bool is_float_0_or_1() { value *v = gvalue(); return v->is_const() && (v->literal_value == literal(0) || v->literal_value == literal(1.0f)); } bool is_undef() { return gvalue()->kind == VLK_UNDEF; } bool is_any_gpr() { return (kind == VLK_REG || kind == VLK_TEMP); } bool is_agpr() { return array && is_any_gpr(); } // scalar gpr, as opposed to element of gpr array bool is_sgpr() { return !array && is_any_gpr(); } bool is_special_reg() { return kind == VLK_SPECIAL_REG; } bool is_any_reg() { return is_any_gpr() || is_special_reg(); } bool is_kcache() { return kind == VLK_KCACHE; } bool is_rel() { return kind == VLK_REL_REG; } bool is_readonly() { return flags & VLF_READONLY; } bool is_chan_pinned() { return flags & VLF_PIN_CHAN; } bool is_reg_pinned() { return flags & VLF_PIN_REG; } bool is_global(); void set_global(); void set_prealloc(); bool is_prealloc(); bool is_fixed(); void fix(); bool is_dead() { return flags & VLF_DEAD; } literal & get_const_value() { value *v = gvalue(); assert(v->is_const()); return v->literal_value; } // true if needs to be encoded as literal in alu bool is_literal() { return is_const() && literal_value != literal(0) && literal_value != literal(1) && literal_value != literal(-1) && literal_value != literal(0.5) && literal_value != literal(1.0); } void add_use(node *n); void remove_use(const node *n); value_hash hash(); value_hash rel_hash(); void assign_source(value *v) { assert(!gvn_source || gvn_source == this); gvn_source = v->gvalue(); } bool v_equal(value *v) { return gvalue() == v->gvalue(); } unsigned use_count(); void delete_uses(); sel_chan get_final_gpr() { if (array && array->gpr) { int reg_offset = select.sel() - array->base_gpr.sel(); if (rel && rel->is_const()) reg_offset += rel->get_const_value().i; return array->gpr + (reg_offset << 2); } else { return gpr; } } unsigned get_final_chan() { if (array) { assert(array->gpr); return array->gpr.chan(); } else { assert(gpr); return gpr.chan(); } } /* Check whether copy-propagation of src into this would create an access * conflict with relative addressing, i.e. an operation that tries to access * array elements with different address register values. */ bool no_reladdr_conflict_with(value *src); val_set interferences; unsigned uid; }; class expr_handler; class value_table { typedef std::vector vt_item; typedef std::vector vt_table; expr_handler &ex; unsigned size_bits; unsigned size; unsigned size_mask; vt_table hashtable; unsigned cnt; public: value_table(expr_handler &ex, unsigned size_bits = 10) : ex(ex), size_bits(size_bits), size(1u << size_bits), size_mask(size - 1), hashtable(size), cnt() {} ~value_table() {} void add_value(value* v); bool expr_equal(value* l, value* r); unsigned count() { return cnt; } void get_values(vvec & v); }; class sb_context; enum node_type { NT_UNKNOWN, NT_LIST, NT_OP, NT_REGION, NT_REPEAT, NT_DEPART, NT_IF, }; enum node_subtype { NST_UNKNOWN, NST_LIST, NST_ALU_GROUP, NST_ALU_CLAUSE, NST_ALU_INST, NST_ALU_PACKED_INST, NST_CF_INST, NST_FETCH_INST, NST_TEX_CLAUSE, NST_VTX_CLAUSE, NST_GDS_CLAUSE, NST_BB, NST_PHI, NST_PSI, NST_COPY, NST_LOOP_PHI_CONTAINER, NST_LOOP_CONTINUE, NST_LOOP_BREAK }; enum node_flags { NF_EMPTY = 0, NF_DEAD = (1 << 0), NF_REG_CONSTRAINT = (1 << 1), NF_CHAN_CONSTRAINT = (1 << 2), NF_ALU_4SLOT = (1 << 3), NF_CONTAINER = (1 << 4), NF_COPY_MOV = (1 << 5), NF_DONT_KILL = (1 << 6), NF_DONT_HOIST = (1 << 7), NF_DONT_MOVE = (1 << 8), // for KILLxx - we want to schedule them as early as possible NF_SCHEDULE_EARLY = (1 << 9), // for ALU_PUSH_BEFORE - when set, replace with PUSH + ALU NF_ALU_STACK_WORKAROUND = (1 << 10) }; inline node_flags operator |(node_flags l, node_flags r) { return (node_flags)((unsigned)l|(unsigned)r); } inline node_flags& operator |=(node_flags &l, node_flags r) { l = l | r; return l; } inline node_flags& operator &=(node_flags &l, node_flags r) { l = (node_flags)((unsigned)l & (unsigned)r); return l; } inline node_flags operator ~(node_flags r) { return (node_flags)~(unsigned)r; } struct node_stats { unsigned alu_count; unsigned alu_kill_count; unsigned alu_copy_mov_count; unsigned cf_count; unsigned fetch_count; unsigned region_count; unsigned loop_count; unsigned phi_count; unsigned loop_phi_count; unsigned depart_count; unsigned repeat_count; unsigned if_count; bool uses_ar; node_stats() : alu_count(), alu_kill_count(), alu_copy_mov_count(), cf_count(), fetch_count(), region_count(), loop_count(), phi_count(), loop_phi_count(), depart_count(), repeat_count(), if_count(), uses_ar(false) {} void dump(); }; class shader; class vpass; class container_node; class region_node; class node { protected: node(node_type nt, node_subtype nst, node_flags flags = NF_EMPTY) : prev(), next(), parent(), type(nt), subtype(nst), flags(flags), pred(), dst(), src() {} virtual ~node() {}; public: node *prev, *next; container_node *parent; node_type type; node_subtype subtype; node_flags flags; value *pred; vvec dst; vvec src; virtual bool is_valid() { return true; } virtual bool accept(vpass &p, bool enter); void insert_before(node *n); void insert_after(node *n); void replace_with(node *n); void remove(); virtual value_hash hash() const; value_hash hash_src() const; virtual bool fold_dispatch(expr_handler *ex); bool is_container() { return flags & NF_CONTAINER; } bool is_alu_packed() { return subtype == NST_ALU_PACKED_INST; } bool is_alu_inst() { return subtype == NST_ALU_INST; } bool is_alu_group() { return subtype == NST_ALU_GROUP; } bool is_alu_clause() { return subtype == NST_ALU_CLAUSE; } bool is_fetch_clause() { return subtype == NST_TEX_CLAUSE || subtype == NST_VTX_CLAUSE || subtype == NST_GDS_CLAUSE; } bool is_copy() { return subtype == NST_COPY; } bool is_copy_mov() { return flags & NF_COPY_MOV; } bool is_any_alu() { return is_alu_inst() || is_alu_packed() || is_copy(); } bool is_fetch_inst() { return subtype == NST_FETCH_INST; } bool is_cf_inst() { return subtype == NST_CF_INST; } bool is_region() { return type == NT_REGION; } bool is_depart() { return type == NT_DEPART; } bool is_repeat() { return type == NT_REPEAT; } bool is_if() { return type == NT_IF; } bool is_bb() { return subtype == NST_BB; } bool is_phi() { return subtype == NST_PHI; } bool is_dead() { return flags & NF_DEAD; } bool is_cf_op(unsigned op); bool is_alu_op(unsigned op); bool is_fetch_op(unsigned op); unsigned cf_op_flags(); unsigned alu_op_flags(); unsigned alu_op_slot_flags(); unsigned fetch_op_flags(); bool is_mova(); bool is_pred_set(); bool vec_uses_ar(vvec &vv) { for (vvec::iterator I = vv.begin(), E = vv.end(); I != E; ++I) { value *v = *I; if (v && v->rel && !v->rel->is_const()) return true; } return false; } bool uses_ar() { return vec_uses_ar(dst) || vec_uses_ar(src); } bool vec_uses_lds_oq(vvec &vv) { for (vvec::iterator I = vv.begin(), E = vv.end(); I != E; ++I) { value *v = *I; if (v && v->is_lds_oq()) return true; } return false; } bool consumes_lds_oq() { return vec_uses_lds_oq(src); } bool produces_lds_oq() { return vec_uses_lds_oq(dst); } region_node* get_parent_region(); friend class shader; }; class container_node : public node { public: container_node(node_type nt = NT_LIST, node_subtype nst = NST_LIST, node_flags flags = NF_EMPTY) : node(nt, nst, flags | NF_CONTAINER), first(), last(), live_after(), live_before() {} // child items list node *first, *last; val_set live_after; val_set live_before; class iterator { node *p; public: iterator(node *pp = NULL) : p(pp) {} iterator & operator ++() { p = p->next; return *this;} iterator & operator --() { p = p->prev; return *this;} node* operator *() { return p; } node* operator ->() { return p; } const iterator advance(int n) { if (!n) return *this; iterator I(p); if (n > 0) while (n--) ++I; else while (n++) --I; return I; } const iterator operator +(int n) { return advance(n); } const iterator operator -(int n) { return advance(-n); } bool operator !=(const iterator &i) { return p != i.p; } bool operator ==(const iterator &i) { return p == i.p; } }; class riterator { iterator i; public: riterator(node *p = NULL) : i(p) {} riterator & operator ++() { --i; return *this;} riterator & operator --() { ++i; return *this;} node* operator *() { return *i; } node* operator ->() { return *i; } bool operator !=(const riterator &r) { return i != r.i; } bool operator ==(const riterator &r) { return i == r.i; } }; iterator begin() { return first; } iterator end() { return NULL; } riterator rbegin() { return last; } riterator rend() { return NULL; } bool empty() { assert(first != NULL || first == last); return !first; } unsigned count(); // used with node containers that represent shceduling queues // ignores copies and takes into account alu_packed_node items unsigned real_alu_count(); void push_back(node *n); void push_front(node *n); void insert_node_before(node *s, node *n); void insert_node_after(node *s, node *n); void append_from(container_node *c); // remove range [b..e) from some container and assign to this container void move(iterator b, iterator e); void expand(); void expand(container_node *n); void remove_node(node *n); node *cut(iterator b, iterator e); void clear() { first = last = NULL; } virtual bool is_valid() { return true; } virtual bool accept(vpass &p, bool enter); virtual bool fold_dispatch(expr_handler *ex); node* front() { return first; } node* back() { return last; } void collect_stats(node_stats &s); friend class shader; }; typedef container_node::iterator node_iterator; typedef container_node::riterator node_riterator; class alu_group_node : public container_node { protected: alu_group_node() : container_node(NT_LIST, NST_ALU_GROUP), literals() {} public: std::vector literals; virtual bool is_valid() { return subtype == NST_ALU_GROUP; } virtual bool accept(vpass &p, bool enter); unsigned literal_chan(literal l) { std::vector::iterator F = std::find(literals.begin(), literals.end(), l); assert(F != literals.end()); return F - literals.begin(); } friend class shader; }; class cf_node : public container_node { protected: cf_node() : container_node(NT_OP, NST_CF_INST), jump_target(), jump_after_target() { memset(&bc, 0, sizeof(bc_cf)); }; public: bc_cf bc; cf_node *jump_target; bool jump_after_target; virtual bool is_valid() { return subtype == NST_CF_INST; } virtual bool accept(vpass &p, bool enter); virtual bool fold_dispatch(expr_handler *ex); void jump(cf_node *c) { jump_target = c; jump_after_target = false; } void jump_after(cf_node *c) { jump_target = c; jump_after_target = true; } friend class shader; }; class alu_node : public node { protected: alu_node() : node(NT_OP, NST_ALU_INST) { } public: bc_alu bc; virtual bool is_valid() { return subtype == NST_ALU_INST; } virtual bool accept(vpass &p, bool enter); virtual bool fold_dispatch(expr_handler *ex); unsigned forced_bank_swizzle() { return ((bc.op_ptr->flags & AF_INTERP) && (bc.slot_flags == AF_4V)) ? VEC_210 : 0; } // return param index + 1 if instruction references interpolation param, // otherwise 0 unsigned interp_param(); alu_group_node *get_alu_group_node(); friend class shader; }; // for multi-slot instrs - DOT/INTERP/... (maybe useful for 64bit pairs later) class alu_packed_node : public container_node { protected: alu_packed_node() : container_node(NT_OP, NST_ALU_PACKED_INST) {} public: const alu_op_info* op_ptr() { return static_cast(first)->bc.op_ptr; } unsigned op() { return static_cast(first)->bc.op; } void init_args(bool repl); virtual bool is_valid() { return subtype == NST_ALU_PACKED_INST; } virtual bool accept(vpass &p, bool enter); virtual bool fold_dispatch(expr_handler *ex); unsigned get_slot_mask(); void update_packed_items(sb_context &ctx); friend class shader; }; class fetch_node : public node { protected: fetch_node() : node(NT_OP, NST_FETCH_INST) { memset(&bc, 0, sizeof(bc_fetch)); }; public: bc_fetch bc; virtual bool is_valid() { return subtype == NST_FETCH_INST; } virtual bool accept(vpass &p, bool enter); virtual bool fold_dispatch(expr_handler *ex); bool uses_grad() { return bc.op_ptr->flags & FF_USEGRAD; } friend class shader; }; class region_node; class repeat_node : public container_node { protected: repeat_node(region_node *target, unsigned id) : container_node(NT_REPEAT, NST_LIST), target(target), rep_id(id) {} public: region_node *target; unsigned rep_id; virtual bool accept(vpass &p, bool enter); friend class shader; }; class depart_node : public container_node { protected: depart_node(region_node *target, unsigned id) : container_node(NT_DEPART, NST_LIST), target(target), dep_id(id) {} public: region_node *target; unsigned dep_id; virtual bool accept(vpass &p, bool enter); friend class shader; }; class if_node : public container_node { protected: if_node() : container_node(NT_IF, NST_LIST), cond() {}; public: value *cond; // glued to pseudo output (dst[2]) of the PRED_SETxxx virtual bool accept(vpass &p, bool enter); friend class shader; }; typedef std::vector depart_vec; typedef std::vector repeat_vec; class region_node : public container_node { protected: region_node(unsigned id) : container_node(NT_REGION, NST_LIST), region_id(id), loop_phi(), phi(), vars_defined(), departs(), repeats(), src_loop() {} public: unsigned region_id; container_node *loop_phi; container_node *phi; val_set vars_defined; depart_vec departs; repeat_vec repeats; // true if region was created for loop in the parser, sometimes repeat_node // may be optimized away so we need to remember this information bool src_loop; virtual bool accept(vpass &p, bool enter); unsigned dep_count() { return departs.size(); } unsigned rep_count() { return repeats.size() + 1; } bool is_loop() { return src_loop || !repeats.empty(); } container_node* get_entry_code_location() { node *p = first; while (p && (p->is_depart() || p->is_repeat())) p = static_cast(p)->first; container_node *c = static_cast(p); if (c->is_bb()) return c; else return c->parent; } void expand_depart(depart_node *d); void expand_repeat(repeat_node *r); friend class shader; }; class bb_node : public container_node { protected: bb_node(unsigned id, unsigned loop_level) : container_node(NT_LIST, NST_BB), id(id), loop_level(loop_level) {} public: unsigned id; unsigned loop_level; virtual bool accept(vpass &p, bool enter); friend class shader; }; typedef std::vector regions_vec; typedef std::vector bbs_vec; typedef std::list sched_queue; typedef sched_queue::iterator sq_iterator; typedef std::vector node_vec; typedef std::list node_list; typedef std::set node_set; } // namespace r600_sb #endif /* R600_SB_IR_H_ */