//===-- X86InstructionInfo.def - X86 Instruction Information ----*- C++ -*-===// // // This file describes all of the instructions that the X86 backend uses. It // relys on an external 'I' macro being defined that takes the arguments // specified below, and is used to make all of the information relevant to an // instruction be in one place. // // Note that X86 Instructions always have the destination register listed as // operand 0, unless it does not produce a value (in which case the TSFlags will // include X86II::Void). // //===----------------------------------------------------------------------===// // NOTE: No include guards desired #ifndef I #errror "Must define I macro before including X86/X86InstructionInfo.def!" #endif // Arguments to be passed into the I macro // #1: Enum name - This ends up being the opcode symbol in the X86 namespace // #2: Opcode name, as used by the gnu assembler // #3: Instruction Flags - This should be a field or'd together that contains // constants from the MachineInstrInfo.h file. // #4: Target Specific Flags - Another bitfield containing X86 specific flags // that we are interested in for each instruction. These should be flags // defined in X86InstrInfo.h in the X86II namespace. // // The first instruction must always be the PHI instruction: (FIXME, not yet) I(PHI , "phi", 0, 0) // The second instruction must always be the noop instruction: (FIXME, not yet) I(NOOP , "nop", 0, X86II::Void) // nop 90 // Miscellaneous instructions I(RET , "ret", M_RET_FLAG, X86II::Void) // ret CB // Move instructions I(MOVir8 , "movb", 0, 0) // R = imm8 B0+ rb I(MOVir16 , "movw", 0, 0) // R = imm16 B8+ rw I(MOVir32 , "movl", 0, 0) // R = imm32 B8+ rd // Arithmetic instructions I(ADDrr8 , "addb", 0, 0) // R8 += R8 00/r I(ADDrr16 , "addw", 0, 0) // R16 += R16 01/r I(ADDrr32 , "addl", 0, 0) // R32 += R32 02/r // At this point, I is dead, so undefine the macro #undef I