/* -*- mesa-c++ -*- * * Copyright (c) 2018-2019 Collabora LTD * * Author: Gert Wollny * * 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. */ #ifndef SFN_GDSINSTR_H #define SFN_GDSINSTR_H #include "sfn_instruction_base.h" #include namespace r600 { class GDSInstr : public Instruction { public: GDSInstr(ESDOp op, const GPRVector& dest, const PValue& value, const PValue &uav_id, int uav_base); GDSInstr(ESDOp op, const GPRVector& dest, const PValue& value, const PValue& value2, const PValue &uav_id, int uav_base); GDSInstr(ESDOp op, const GPRVector& dest, const PValue &uav_id, int uav_base); ESDOp op() const {return m_op;} int src_sel() const { if (!m_src) return 0; assert(m_src->type() == Value::gpr); return m_src->sel(); } int src2_chan() const { if (!m_src2) return 0; assert(m_src->type() == Value::gpr); return m_src->chan(); } int src_swizzle(int idx) const {assert(idx < 3); return m_src_swizzle[idx];} int dest_sel() const { return m_dest.sel(); } int dest_swizzle(int i) const { if (i < 4) return m_dest_swizzle[i]; return 7; } void set_dest_swizzle(const std::array& swz) { m_dest_swizzle = swz; } PValue uav_id() const {return m_uav_id;} int uav_base() const {return m_uav_base;} private: bool is_equal_to(const Instruction& lhs) const override; void do_print(std::ostream& os) const override; ESDOp m_op; PValue m_src; PValue m_src2; GPRVector m_dest; std::array m_dest_swizzle; std::array m_src_swizzle; EBufferIndexMode m_buffer_index_mode; PValue m_uav_id; int m_uav_base; std::bitset<8> m_flags; }; class RatInstruction : public Instruction { public: enum ERatOp { NOP, STORE_TYPED, STORE_RAW, STORE_RAW_FDENORM, CMPXCHG_INT, CMPXCHG_FLT, CMPXCHG_FDENORM, ADD, SUB, RSUB, MIN_INT, MIN_UINT, MAX_INT, MAX_UINT, AND, OR, XOR, MSKOR, INC_UINT, DEC_UINT, NOP_RTN = 32, XCHG_RTN = 34, XCHG_FDENORM_RTN, CMPXCHG_INT_RTN, CMPXCHG_FLT_RTN, CMPXCHG_FDENORM_RTN, ADD_RTN, SUB_RTN, RSUB_RTN, MIN_INT_RTN, MIN_UINT_RTN, MAX_INT_RTN, MAX_UINT_RTN, AND_RTN, OR_RTN, XOR_RTN, MSKOR_RTN, UINT_RTN, UNSUPPORTED }; RatInstruction(ECFOpCode cf_opcode, ERatOp rat_op, const GPRVector& data, const GPRVector& index, int rat_id, const PValue& rat_id_offset, int burst_count, int comp_mask, int element_size, bool ack); PValue rat_id_offset() const { return m_rat_id_offset;} int rat_id() const { return m_rat_id;} ERatOp rat_op() const {return m_rat_op;} int data_gpr() const {return m_data.sel();} int index_gpr() const {return m_index.sel();} int elm_size() const {return m_element_size;} int comp_mask() const {return m_comp_mask;} bool need_ack() const {return m_need_ack;} int burst_count() const {return m_burst_count;} static ERatOp opcode(nir_intrinsic_op opcode); int data_swz(int chan) const {return m_data.chan_i(chan);} private: bool is_equal_to(const Instruction& lhs) const override; void do_print(std::ostream& os) const override; ECFOpCode m_cf_opcode; ERatOp m_rat_op; GPRVector m_data; GPRVector m_index; int m_rat_id; PValue m_rat_id_offset; int m_burst_count; int m_comp_mask; int m_element_size; std::bitset<8> m_flags; bool m_need_ack; }; class GDSStoreTessFactor : public Instruction { public: GDSStoreTessFactor(GPRVector& value); int sel() const {return m_value.sel();} int chan(int i ) const {return m_value.chan_i(i);} void replace_values(const ValueSet& candiates, PValue new_value) override; private: bool is_equal_to(const Instruction& lhs) const override; void do_print(std::ostream& os) const override; GPRVector m_value; }; } #endif // SFN_GDSINSTR_H