UUID——例如 a93c6f00-e57d-5684-b7b6-d8193f3e46c0 • authors——例如 Jane Q. Developer • license——例如 MIT，BSD3 或 GPLv2 • repository——例如 https://github.com/JuliaData/DataFrames.jl.git • description——一个总结包功能的文本块 alive by LLVM. By doing 92.14. WORKING WITH LLVM 1197 GC root lowering late, we give LLVM the license to do any of its usual optimizations (constant folding, dead code elimination, etc.), without having decay an untracked pointer to any of the others. However, do note that the optimizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual op�miza�ons (constant folding, dead code elimina�on, etc.), without having to decay an untracked pointer to any of the others. However, do note that the op�mizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual op�miza�ons (constant folding, dead code elimina�on, etc.), without having to decay an untracked pointer to any of the others. However, do note that the op�mizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual op�miza�ons (constant folding, dead code elimina�on, etc.), without having to decay an untracked pointer to any of the others. However, do note that the op�mizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual op�miza�ons (constant folding, dead code elimina�on, etc.), without having to decay an untracked pointer to any of the others. However, do note that the op�mizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

alive by LLVM. By doing 106.14. WORKING WITH LLVM 1263 GC root lowering late, we give LLVM the license to do any of its usual optimizations (constant folding, dead code elimination, etc.), without having decay an untracked pointer to any of the others. However, do note that the optimizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual op�miza�ons (constant folding, dead code elimina�on, etc.), without having to decay an untracked pointer to any of the others. However, do note that the op�mizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual optimizations (constant folding, dead code elimination, etc.), without having decay an untracked pointer to any of the others. However, do note that the optimizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual optimizations (constant folding, dead code elimination, etc.), without having decay an untracked pointer to any of the others. However, do note that the optimizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the

in the error path, would be kept alive by LLVM. By doing GC root lowering late, we give LLVM the license to do any of its usual optimizations (constant folding, dead code elimination, etc.), without having decay an untracked pointer to any of the others. However, do note that the optimizer has broad license to not root such a value. It is never safe to have a value in address space 0 in any part of the