The problem is that the lldb expression parser uses C++ references to implement the job of finding & extracting results from the expressions we run. So we currently have to compile the expressions as C++ expressions, and as you guessed, you can't use "class" in a C++ expression. At some point, we have to teach clang how to do "C with references" and then we'll be able to compile & execute real C expressions.
However, provided you have debug information for "class", you can print the value of the variable using the "frame variable" command, i.e.:
(lldb) frame variable class
The "frame variable" command does not use the expression parser, it goes directly to the debug information, extracts the type & location of the variable, and prints that directly. So it doesn't suffer this restriction. If "class" is a global variable, not a frame local, use
target variable instead.
frame variable does support a limited set of "expression-like" features, you can say:
(lldb) frame variable class.member
(lldb) frame variable *class
but you can't use it to call functions or pass the variable to a function call.
If you need to do that you can run the command:
(lldb) frame variable -L class
which will print the location of the variable. Usually that's some address, in which case you can use
(TypeOfClass *) <Address From Frame Variable>
in your expression in place of "class". If the location turns out to be a register, then use "$" appropriately cast in your expression. If you are going to use the variable in a number of expressions, remember you can do:
(lldb) expr TypeOfClass *$class = (TypeOfClass *) <Address From Frame Variable>
and then just use $class in your subsequent expressions. If you got super-motivated, you could even write a Python command that automates these steps...