コード例 #1
0
template <typename Visitor> void enumerateFields_gen(InstMem obj,  Visitor & vis) {
  enumerateFields_gen(Inst(obj), vis);
  vis(obj.segment(),"segment");
  vis(obj.align(),"align");
  vis(obj.equivClass(),"equivClass");
  vis(obj.width(),"width");
  enumerateFields(obj.modifier(), vis);
}
コード例 #2
0
ファイル: gcn.cpp プロジェクト: HSAFoundation/HSAIL-Tools
Inst parseMnemoGcnMem(unsigned opCode, Scanner& scanner, Brigantine& bw, int* vx) 
{
    OptionalU const vector  = scanner.tryEatToken(EMVector);
    string    const segment = scanner.scan().text();

    if (segment != AMD_GCN_SEGMENT_SUFF) scanner.syntaxError("missing or invalid segment name");

    int vx2 = -1;
    InstMem res = parseMnemoMem(opCode, scanner, bw, &vx2);
    if (res.segment() != BRIG_SEGMENT_FLAT) scanner.syntaxError("invalid segment");
    if (vx2 != 1) scanner.syntaxError("invalid vX suffix");

    res.segment() = BRIG_SEGMENT_AMD_GCN;
    if (vx) *vx = vector.isInitialized() ? vector.value() : 1;

    return res;
}
コード例 #3
0
template <typename Visitor> void enumerateFields_gen(InstMem obj,  Visitor & vis) {
  vis(obj.opcode(),"opcode");
  vis(obj.type(),"type");
  for (unsigned i=0;i<5;i++) {
    vis(obj.operand(i),"operands", i);
  }
  vis(obj.segment(),"segment");
  enumerateFields(obj.modifier(), vis);
  vis(obj.equivClass(),"equivClass");
  vis(obj.width(),"width");
}
コード例 #4
0
bool ValidatorImpl::ValidateBrigInstFields(Inst item) const
{
    unsigned kind = item.kind();

    switch (kind)
    {
       case BRIG_KIND_INST_ADDR:
       {
           InstAddr it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstAddr", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstAddr", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstAddr", "operands");
           validate_BrigSegment(item, it.brig()->segment, "InstAddr", "segment");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstAddr", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_ATOMIC:
       {
           InstAtomic it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstAtomic", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstAtomic", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstAtomic", "operands");
           validate_BrigSegment(item, it.brig()->segment, "InstAtomic", "segment");
           validate_BrigMemoryOrder(item, it.brig()->memoryOrder, "InstAtomic", "memoryOrder");
           validate_BrigMemoryScope(item, it.brig()->memoryScope, "InstAtomic", "memoryScope");
           validate_BrigAtomicOperation(item, it.brig()->atomicOperation, "InstAtomic", "atomicOperation");
           validate_fld_EquivClass(item, it.brig()->equivClass, "InstAtomic", "equivClass");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstAtomic", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_BASIC:
       {
           InstBasic it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstBasic", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstBasic", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstBasic", "operands");
       }
       break;

       case BRIG_KIND_INST_BR:
       {
           InstBr it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstBr", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstBr", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstBr", "operands");
           validate_BrigWidth(item, it.brig()->width, "InstBr", "width");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstBr", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_CMP:
       {
           InstCmp it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstCmp", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstCmp", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstCmp", "operands");
           validate_BrigType(item, it.brig()->sourceType, "InstCmp", "sourceType");
           validate_BrigAluModifier(item, it.brig()->modifier, "InstCmp", "modifier");
           validate_BrigCompareOperation(item, it.brig()->compare, "InstCmp", "compare");
           validate_BrigPack(item, it.brig()->pack, "InstCmp", "pack");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstCmp", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_CVT:
       {
           InstCvt it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstCvt", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstCvt", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstCvt", "operands");
           validate_BrigType(item, it.brig()->sourceType, "InstCvt", "sourceType");
           validate_BrigAluModifier(item, it.brig()->modifier, "InstCvt", "modifier");
           validate_BrigRound(item, it.brig()->round, "InstCvt", "round");
       }
       break;

       case BRIG_KIND_INST_IMAGE:
       {
           InstImage it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstImage", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstImage", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstImage", "operands");
           validate_BrigType(item, it.brig()->imageType, "InstImage", "imageType");
           validate_BrigType(item, it.brig()->coordType, "InstImage", "coordType");
           validate_BrigImageGeometry(item, it.brig()->geometry, "InstImage", "geometry");
           validate_fld_EquivClass(item, it.brig()->equivClass, "InstImage", "equivClass");
           validate_fld_Reserved(item, it.brig()->reserved, "InstImage", "reserved");
       }
       break;

       case BRIG_KIND_INST_LANE:
       {
           InstLane it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstLane", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstLane", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstLane", "operands");
           validate_BrigType(item, it.brig()->sourceType, "InstLane", "sourceType");
           validate_BrigWidth(item, it.brig()->width, "InstLane", "width");
           validate_fld_Reserved(item, it.brig()->reserved, "InstLane", "reserved");
       }
       break;

       case BRIG_KIND_INST_MEM:
       {
           InstMem it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstMem", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstMem", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstMem", "operands");
           validate_BrigSegment(item, it.brig()->segment, "InstMem", "segment");
           validate_BrigAlignment(item, it.brig()->align, "InstMem", "align");
           validate_fld_EquivClass(item, it.brig()->equivClass, "InstMem", "equivClass");
           validate_BrigWidth(item, it.brig()->width, "InstMem", "width");
           validate_BrigMemoryModifier(item, it.brig()->modifier, "InstMem", "modifier");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstMem", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_MEM_FENCE:
       {
           InstMemFence it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstMemFence", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstMemFence", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstMemFence", "operands");
           validate_BrigMemoryOrder(item, it.brig()->memoryOrder, "InstMemFence", "memoryOrder");
           validate_BrigMemoryScope(item, it.brig()->globalSegmentMemoryScope, "InstMemFence", "globalSegmentMemoryScope");
           validate_BrigMemoryScope(item, it.brig()->groupSegmentMemoryScope, "InstMemFence", "groupSegmentMemoryScope");
           validate_BrigMemoryScope(item, it.brig()->imageSegmentMemoryScope, "InstMemFence", "imageSegmentMemoryScope");
       }
       break;

       case BRIG_KIND_INST_MOD:
       {
           InstMod it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstMod", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstMod", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstMod", "operands");
           validate_BrigAluModifier(item, it.brig()->modifier, "InstMod", "modifier");
           validate_BrigRound(item, it.brig()->round, "InstMod", "round");
           validate_BrigPack(item, it.brig()->pack, "InstMod", "pack");
           validate_fld_Reserved(item, it.brig()->reserved, "InstMod", "reserved");
       }
       break;

       case BRIG_KIND_INST_QUERY_IMAGE:
       {
           InstQueryImage it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstQueryImage", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstQueryImage", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstQueryImage", "operands");
           validate_BrigType(item, it.brig()->imageType, "InstQueryImage", "imageType");
           validate_BrigImageGeometry(item, it.brig()->geometry, "InstQueryImage", "geometry");
           validate_BrigImageQuery(item, it.brig()->imageQuery, "InstQueryImage", "imageQuery");
       }
       break;

       case BRIG_KIND_INST_QUERY_SAMPLER:
       {
           InstQuerySampler it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstQuerySampler", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstQuerySampler", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstQuerySampler", "operands");
           validate_BrigSamplerQuery(item, it.brig()->samplerQuery, "InstQuerySampler", "samplerQuery");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstQuerySampler", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_QUEUE:
       {
           InstQueue it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstQueue", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstQueue", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstQueue", "operands");
           validate_BrigSegment(item, it.brig()->segment, "InstQueue", "segment");
           validate_BrigMemoryOrder(item, it.brig()->memoryOrder, "InstQueue", "memoryOrder");
           validate_fld_Reserved(item, it.brig()->reserved, "InstQueue", "reserved");
       }
       break;

       case BRIG_KIND_INST_SEG:
       {
           InstSeg it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstSeg", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstSeg", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstSeg", "operands");
           validate_BrigSegment(item, it.brig()->segment, "InstSeg", "segment");
           for (unsigned i = 0; i < 3; i++) {
               validate_fld_Reserved(item, it.brig()->reserved[i], "InstSeg", "reserved");
           }
       }
       break;

       case BRIG_KIND_INST_SEG_CVT:
       {
           InstSegCvt it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstSegCvt", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstSegCvt", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstSegCvt", "operands");
           validate_BrigType(item, it.brig()->sourceType, "InstSegCvt", "sourceType");
           validate_BrigSegment(item, it.brig()->segment, "InstSegCvt", "segment");
           validate_BrigSegCvtModifier(item, it.brig()->modifier, "InstSegCvt", "modifier");
       }
       break;

       case BRIG_KIND_INST_SIGNAL:
       {
           InstSignal it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstSignal", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstSignal", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstSignal", "operands");
           validate_BrigType(item, it.brig()->signalType, "InstSignal", "signalType");
           validate_BrigMemoryOrder(item, it.brig()->memoryOrder, "InstSignal", "memoryOrder");
           validate_BrigAtomicOperation(item, it.brig()->signalOperation, "InstSignal", "signalOperation");
       }
       break;

       case BRIG_KIND_INST_SOURCE_TYPE:
       {
           InstSourceType it = item;

           validate_BrigOpcode(item, it.brig()->base.opcode, "InstSourceType", "opcode");
           validate_BrigType(item, it.brig()->base.type, "InstSourceType", "type");
           validate_BrigDataOffsetOperandList(item, it.brig()->base.operands, "InstSourceType", "operands");
           validate_BrigType(item, it.brig()->sourceType, "InstSourceType", "sourceType");
           validate_fld_Reserved(item, it.brig()->reserved, "InstSourceType", "reserved");
       }
       break;

    default:
        return false; // not found

    } // switch

    return true; // found and validated
}
コード例 #5
0
void setBrigProp(Inst inst, unsigned propId, unsigned val, bool ignoreErrors)
{
    using namespace HSAIL_PROPS;

    switch(inst.kind())
    {
        case BRIG_KIND_INST_ADDR:
        {
            InstAddr it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SEGMENT: it.segment() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_ATOMIC:
        {
            InstAtomic it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SEGMENT: it.segment() = val; break;
            case PROP_MEMORYORDER: it.memoryOrder() = val; break;
            case PROP_MEMORYSCOPE: it.memoryScope() = val; break;
            case PROP_ATOMICOPERATION: it.atomicOperation() = val; break;
            case PROP_EQUIVCLASS: it.equivClass() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_BASIC:
        {
            InstBasic it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_BR:
        {
            InstBr it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_WIDTH: it.width() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_CMP:
        {
            InstCmp it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SOURCETYPE: it.sourceType() = val; break;
            case PROP_FTZ: it.modifier().ftz() = (val != 0); break;
            case PROP_COMPARE: it.compare() = val; break;
            case PROP_PACK: it.pack() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_CVT:
        {
            InstCvt it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SOURCETYPE: it.sourceType() = val; break;
            case PROP_FTZ: it.modifier().ftz() = (val != 0); break;
            case PROP_ROUND: it.round() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_IMAGE:
        {
            InstImage it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_IMAGETYPE: it.imageType() = val; break;
            case PROP_COORDTYPE: it.coordType() = val; break;
            case PROP_GEOMETRY: it.geometry() = val; break;
            case PROP_EQUIVCLASS: it.equivClass() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_LANE:
        {
            InstLane it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SOURCETYPE: it.sourceType() = val; break;
            case PROP_WIDTH: it.width() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_MEM:
        {
            InstMem it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SEGMENT: it.segment() = val; break;
            case PROP_ALIGN: it.align() = val; break;
            case PROP_EQUIVCLASS: it.equivClass() = val; break;
            case PROP_WIDTH: it.width() = val; break;
            case PROP_ISCONST: it.modifier().isConst() = (val != 0); break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_MEM_FENCE:
        {
            InstMemFence it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_MEMORYORDER: it.memoryOrder() = val; break;
            case PROP_GLOBALSEGMENTMEMORYSCOPE: it.globalSegmentMemoryScope() = val; break;
            case PROP_GROUPSEGMENTMEMORYSCOPE: it.groupSegmentMemoryScope() = val; break;
            case PROP_IMAGESEGMENTMEMORYSCOPE: it.imageSegmentMemoryScope() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_MOD:
        {
            InstMod it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_FTZ: it.modifier().ftz() = (val != 0); break;
            case PROP_ROUND: it.round() = val; break;
            case PROP_PACK: it.pack() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_QUERY_IMAGE:
        {
            InstQueryImage it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_IMAGETYPE: it.imageType() = val; break;
            case PROP_GEOMETRY: it.geometry() = val; break;
            case PROP_IMAGEQUERY: it.imageQuery() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_QUERY_SAMPLER:
        {
            InstQuerySampler it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SAMPLERQUERY: it.samplerQuery() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_QUEUE:
        {
            InstQueue it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SEGMENT: it.segment() = val; break;
            case PROP_MEMORYORDER: it.memoryOrder() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_SEG:
        {
            InstSeg it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SEGMENT: it.segment() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_SEG_CVT:
        {
            InstSegCvt it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SOURCETYPE: it.sourceType() = val; break;
            case PROP_SEGMENT: it.segment() = val; break;
            case PROP_ISNONULL: it.modifier().isNoNull() = (val != 0); break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_SIGNAL:
        {
            InstSignal it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SIGNALTYPE: it.signalType() = val; break;
            case PROP_MEMORYORDER: it.memoryOrder() = val; break;
            case PROP_SIGNALOPERATION: it.signalOperation() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        case BRIG_KIND_INST_SOURCE_TYPE:
        {
            InstSourceType it = inst;

            switch(propId)
            {
            case PROP_OPCODE: it.opcode() = val; break;
            case PROP_TYPE: it.type() = val; break;
            case PROP_SOURCETYPE: it.sourceType() = val; break;
            default:
                assert(ignoreErrors);
                break;
            }
        }
        break;

        default:
            assert(false); // Invalid format
            break;
    }
}