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doris/be/src/exprs/arithmetic_expr.h
ZHAO Chun 90d71508ff Add UserFunctionCache to cache UDF's library (#453) 
* Add UserFunctionCache to cache UDF's library

This patch replace LibCache with UserFunctionCache. LibCache use HDFS
URL to identify a UDF's Library, and when BE process restart all of
downloaded library should be loaded another time. We use function id
corresponding to a library, and when process restart, all downloaded
libraries can be loaded without another downloading.

* update
2018-12-21 22:07:21 +08:00

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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied. See the License for the
// specific language governing permissions and limitations
// under the License.
#ifndef DORIS_BE_SRC_EXPRS_ARITHMETIC_EXPR_H
#define DORIS_BE_SRC_EXPRS_ARITHMETIC_EXPR_H
#include "common/object_pool.h"
#include "exprs/expr.h"
namespace doris {
class ArithmeticExpr : public Expr {
public:
static Expr* from_thrift(const TExprNode& node);
protected:
enum BinaryOpType {
ADD,
SUB,
MUL,
DIV,
MOD,
BIT_AND,
BIT_OR,
BIT_XOR,
BIT_NOT,
};
ArithmeticExpr(const TExprNode& node) : Expr(node) { }
virtual ~ArithmeticExpr() { }
Status codegen_binary_op(
RuntimeState* state, llvm::Function** fn, BinaryOpType op_type);
};
class AddExpr : public ArithmeticExpr {
public:
AddExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~AddExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new AddExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
virtual FloatVal get_float_val(ExprContext* context, TupleRow*);
virtual DoubleVal get_double_val(ExprContext* context, TupleRow*);
};
class SubExpr : public ArithmeticExpr {
public:
SubExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~SubExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new SubExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
virtual FloatVal get_float_val(ExprContext* context, TupleRow*);
virtual DoubleVal get_double_val(ExprContext* context, TupleRow*);
};
class MulExpr : public ArithmeticExpr {
public:
MulExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~MulExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new MulExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
virtual FloatVal get_float_val(ExprContext* context, TupleRow*);
virtual DoubleVal get_double_val(ExprContext* context, TupleRow*);
};
class DivExpr : public ArithmeticExpr {
public:
DivExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~DivExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new DivExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
virtual FloatVal get_float_val(ExprContext* context, TupleRow*);
virtual DoubleVal get_double_val(ExprContext* context, TupleRow*);
};
class ModExpr : public ArithmeticExpr {
public:
ModExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~ModExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new ModExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
virtual FloatVal get_float_val(ExprContext* context, TupleRow*);
virtual DoubleVal get_double_val(ExprContext* context, TupleRow*);
};
class BitAndExpr : public ArithmeticExpr {
public:
BitAndExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~BitAndExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new BitAndExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
};
class BitOrExpr : public ArithmeticExpr {
public:
BitOrExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~BitOrExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new BitOrExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
};
class BitXorExpr : public ArithmeticExpr {
public:
BitXorExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~BitXorExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new BitXorExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
};
class BitNotExpr : public ArithmeticExpr {
public:
BitNotExpr(const TExprNode& node) : ArithmeticExpr(node) { }
virtual ~BitNotExpr() { }
virtual Expr* clone(ObjectPool* pool) const override {
return pool->add(new BitNotExpr(*this));
}
virtual Status get_codegend_compute_fn(RuntimeState* state, llvm::Function** fn);
virtual TinyIntVal get_tiny_int_val(ExprContext* context, TupleRow*);
virtual SmallIntVal get_small_int_val(ExprContext* context, TupleRow*);
virtual IntVal get_int_val(ExprContext* context, TupleRow*);
virtual BigIntVal get_big_int_val(ExprContext* context, TupleRow*);
virtual LargeIntVal get_large_int_val(ExprContext* context, TupleRow*);
};
}
#endif
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