# x86-class cpu description file # this file is read by genmdesc to pruduce a table with all the relevant information # about the cpu instructions that may be used by the regsiter allocator, the scheduler # and other parts of the arch-dependent part of mini. # # An opcode name is followed by a colon and optional specifiers. # A specifier has a name, a colon and a value. Specifiers are separated by white space. # Here is a description of the specifiers valid for this file and their possible values. # # dest:register describes the destination register of an instruction # src1:register describes the first source register of an instruction # src2:register describes the second source register of an instruction # # register may have the following values: # i integer register # b base register (used in address references) # f floating point register # a EAX register # d EDX register # s ECX register # l long reg (forced eax:edx) # L long reg (dynamic) # y the reg needs to be one of EAX,EBX,ECX,EDX (sete opcodes) # # len:number describe the maximun length in bytes of the instruction # number is a positive integer. If the length is not specified # it defaults to zero. But lengths are only checked if the given opcode # is encountered during compilation. Some opcodes, like CONV_U4 are # transformed into other opcodes in the brg files, so they do not show up # during code generation. # # cost:number describe how many cycles are needed to complete the instruction (unused) # # clob:spec describe if the instruction clobbers registers or has special needs # # spec can be one of the following characters: # c clobbers caller-save registers # 1 clobbers the first source register # a EAX is clobbered # d EDX is clobbered # x both the source operands are clobbered (xchg) # # flags:spec describe if the instruction uses or sets the flags (unused) # # spec can be one of the following chars: # s sets the flags # u uses the flags # m uses and modifies the flags # # res:spec describe what units are used in the processor (unused) # # delay: describe delay slots (unused) # # the required specifiers are: len, clob (if registers are clobbered), the registers # specifiers if the registers are actually used, flags (when scheduling is implemented). # # See the code in mini-x86.c for more details on how the specifiers are used. # break: len:1 jmp: len:32 call: dest:a clob:c len:17 br: len:5 int_beq: len:6 int_bge: len:6 int_bgt: len:6 int_ble: len:6 int_blt: len:6 int_bne_un: len:6 int_bge_un: len:6 int_bgt_un: len:6 int_ble_un: len:6 int_blt_un: len:6 label: len:0 int_add: dest:i src1:i src2:i len:2 clob:1 int_sub: dest:i src1:i src2:i len:2 clob:1 int_mul: dest:i src1:i src2:i len:3 clob:1 int_div: dest:a src1:a src2:i len:15 clob:d int_div_un: dest:a src1:a src2:i len:15 clob:d int_rem: dest:d src1:a src2:i len:15 clob:a int_rem_un: dest:d src1:a src2:i len:15 clob:a int_and: dest:i src1:i src2:i len:2 clob:1 int_or: dest:i src1:i src2:i len:2 clob:1 int_xor: dest:i src1:i src2:i len:2 clob:1 int_shl: dest:i src1:i src2:s clob:1 len:2 int_shr: dest:i src1:i src2:s clob:1 len:2 int_shr_un: dest:i src1:i src2:s clob:1 len:2 int_neg: dest:i src1:i len:2 clob:1 int_not: dest:i src1:i len:2 clob:1 int_conv_to_i1: dest:i src1:y len:3 int_conv_to_i2: dest:i src1:i len:3 int_conv_to_i4: dest:i src1:i len:2 int_conv_to_r4: dest:f src1:i len:7 int_conv_to_r8: dest:f src1:i len:7 int_conv_to_u4: dest:i src1:i int_conv_to_u2: dest:i src1:i len:3 int_conv_to_u1: dest:i src1:y len:3 int_conv_to_i: dest:i src1:i len:3 int_mul_ovf: dest:i src1:i src2:i clob:1 len:9 int_mul_ovf_un: dest:i src1:i src2:i len:16 throw: src1:i len:13 rethrow: src1:i len:13 start_handler: len:16 endfinally: len:16 endfilter: src1:a len:16 ckfinite: dest:f src1:f len:32 ceq: dest:y len:6 cgt: dest:y len:6 cgt.un: dest:y len:6 clt: dest:y len:6 clt.un: dest:y len:6 cne: dest:y len:6 localloc: dest:i src1:i len:120 compare: src1:i src2:i len:2 compare_imm: src1:i len:6 fcompare: src1:f src2:f clob:a len:9 oparglist: src1:b len:10 outarg: src1:i len:1 outarg_imm: len:5 setret: dest:a src1:i len:2 setlret: dest:l src1:i src2:i len:4 checkthis: src1:b len:2 voidcall: len:17 clob:c voidcall_reg: src1:i len:11 clob:c voidcall_membase: src1:b len:16 clob:c fcall: dest:f len:17 clob:c fcall_reg: dest:f src1:i len:11 clob:c fcall_membase: dest:f src1:b len:16 clob:c lcall: dest:l len:17 clob:c lcall_reg: dest:l src1:i len:11 clob:c lcall_membase: dest:l src1:b len:16 clob:c vcall: len:17 clob:c vcall_reg: src1:i len:11 clob:c vcall_membase: src1:b len:16 clob:c call_reg: dest:a src1:i len:11 clob:c call_membase: dest:a src1:b len:16 clob:c iconst: dest:i len:5 r4const: dest:f len:15 r8const: dest:f len:16 store_membase_imm: dest:b len:10 store_membase_reg: dest:b src1:i len:7 storei1_membase_imm: dest:b len:10 storei1_membase_reg: dest:b src1:y len:7 storei2_membase_imm: dest:b len:11 storei2_membase_reg: dest:b src1:i len:7 storei4_membase_imm: dest:b len:10 storei4_membase_reg: dest:b src1:i len:7 storei8_membase_imm: dest:b storei8_membase_reg: dest:b src1:i storer4_membase_reg: dest:b src1:f len:7 storer8_membase_reg: dest:b src1:f len:7 load_membase: dest:i src1:b len:7 loadi1_membase: dest:y src1:b len:7 loadu1_membase: dest:y src1:b len:7 loadi2_membase: dest:i src1:b len:7 loadu2_membase: dest:i src1:b len:7 loadi4_membase: dest:i src1:b len:7 loadu4_membase: dest:i src1:b len:7 loadi8_membase: dest:i src1:b loadr4_membase: dest:f src1:b len:7 loadr8_membase: dest:f src1:b len:7 loadr8_spill_membase: src1:b len:9 loadu4_mem: dest:i len:9 move: dest:i src1:i len:2 addcc_imm: dest:i src1:i len:6 clob:1 add_imm: dest:i src1:i len:6 clob:1 subcc_imm: dest:i src1:i len:6 clob:1 sub_imm: dest:i src1:i len:6 clob:1 mul_imm: dest:i src1:i len:9 # there is no actual support for division or reminder by immediate # we simulate them, though (but we need to change the burg rules # to allocate a symbolic reg for src2) div_imm: dest:a src1:a src2:i len:15 clob:d div_un_imm: dest:a src1:a src2:i len:15 clob:d rem_imm: dest:d src1:a src2:i len:15 clob:a rem_un_imm: dest:d src1:a src2:i len:15 clob:a and_imm: dest:i src1:i len:6 clob:1 or_imm: dest:i src1:i len:6 clob:1 xor_imm: dest:i src1:i len:6 clob:1 shl_imm: dest:i src1:i len:6 clob:1 shr_imm: dest:i src1:i len:6 clob:1 shr_un_imm: dest:i src1:i len:6 clob:1 cond_exc_eq: len:6 cond_exc_ne_un: len:6 cond_exc_lt: len:6 cond_exc_lt_un: len:6 cond_exc_gt: len:6 cond_exc_gt_un: len:6 cond_exc_ge: len:6 cond_exc_ge_un: len:6 cond_exc_le: len:6 cond_exc_le_un: len:6 cond_exc_ov: len:6 cond_exc_no: len:6 cond_exc_c: len:6 cond_exc_nc: len:6 long_shl: dest:L src1:L src2:s clob:1 len:21 long_shr: dest:L src1:L src2:s clob:1 len:22 long_shr_un: dest:L src1:L src2:s clob:1 len:22 long_conv_to_ovf_i: dest:i src1:i src2:i len:30 long_mul_ovf: long_conv_to_r_un: dest:f src1:i src2:i len:37 long_shr_imm: dest:L src1:L clob:1 len:10 long_shr_un_imm: dest:L src1:L clob:1 len:10 long_shl_imm: dest:L src1:L clob:1 len:10 float_beq: len:12 float_bne_un: len:18 float_blt: len:12 float_blt_un: len:20 float_bgt: len:12 float_bgt_un: len:20 float_bge: len:22 float_bge_un: len:12 float_ble: len:22 float_ble_un: len:12 float_add: dest:f src1:f src2:f len:2 float_sub: dest:f src1:f src2:f len:2 float_mul: dest:f src1:f src2:f len:2 float_div: dest:f src1:f src2:f len:2 float_div_un: dest:f src1:f src2:f len:2 float_rem: dest:f src1:f src2:f len:17 float_rem_un: dest:f src1:f src2:f len:17 float_neg: dest:f src1:f len:2 float_not: dest:f src1:f len:2 float_conv_to_i1: dest:y src1:f len:39 float_conv_to_i2: dest:y src1:f len:39 float_conv_to_i4: dest:i src1:f len:39 float_conv_to_i8: dest:L src1:f len:39 float_conv_to_u4: dest:i src1:f len:39 float_conv_to_u8: dest:L src1:f len:39 float_conv_to_u2: dest:y src1:f len:39 float_conv_to_u1: dest:y src1:f len:39 float_conv_to_i: dest:i src1:f len:39 float_conv_to_ovf_i: dest:a src1:f len:30 float_conv_to_ovd_u: dest:a src1:f len:30 float_mul_ovf: float_ceq: dest:y src1:f src2:f len:25 float_cgt: dest:y src1:f src2:f len:25 float_cgt_un: dest:y src1:f src2:f len:37 float_clt: dest:y src1:f src2:f len:25 float_clt_un: dest:y src1:f src2:f len:32 float_conv_to_u: dest:i src1:f len:36 call_handler: len:11 aot_const: dest:i len:5 load_gotaddr: dest:i len:64 got_entry: dest:i src1:b len:7 x86_test_null: src1:i len:2 x86_compare_membase_reg: src1:b src2:i len:7 x86_compare_membase_imm: src1:b len:11 x86_compare_membase8_imm: src1:b len:8 x86_compare_mem_imm: len:11 x86_compare_reg_membase: src1:i src2:b len:7 x86_inc_reg: dest:i src1:i clob:1 len:1 x86_inc_membase: src1:b len:7 x86_dec_reg: dest:i src1:i clob:1 len:1 x86_dec_membase: src1:b len:7 x86_add_membase_imm: src1:b len:11 x86_sub_membase_imm: src1:b len:11 x86_and_membase_imm: src1:b len:11 x86_or_membase_imm: src1:b len:11 x86_xor_membase_imm: src1:b len:11 x86_push: src1:i len:1 x86_push_imm: len:5 x86_push_membase: src1:b len:7 x86_push_obj: src1:b len:30 x86_push_got_entry: src1:b len:7 x86_lea: dest:i src1:i src2:i len:7 x86_lea_membase: dest:i src1:i len:10 x86_xchg: src1:i src2:i clob:x len:1 x86_fpop: src1:f len:2 x86_fp_load_i8: dest:f src1:b len:7 x86_fp_load_i4: dest:f src1:b len:7 x86_seteq_membase: src1:b len:7 x86_setne_membase: src1:b len:7 x86_add_reg_membase: dest:i src1:i src2:b clob:1 len:11 x86_sub_reg_membase: dest:i src1:i src2:b clob:1 len:11 x86_mul_reg_membase: dest:i src1:i src2:b clob:1 len:13 adc: dest:i src1:i src2:i len:2 clob:1 addcc: dest:i src1:i src2:i len:2 clob:1 subcc: dest:i src1:i src2:i len:2 clob:1 adc_imm: dest:i src1:i len:6 clob:1 sbb: dest:i src1:i src2:i len:2 clob:1 sbb_imm: dest:i src1:i len:6 clob:1 br_reg: src1:i len:2 sin: dest:f src1:f len:6 cos: dest:f src1:f len:6 abs: dest:f src1:f len:2 tan: dest:f src1:f len:49 atan: dest:f src1:f len:8 sqrt: dest:f src1:f len:2 bigmul: len:2 dest:l src1:a src2:i bigmul_un: len:2 dest:l src1:a src2:i sext_i1: dest:i src1:y len:3 sext_i2: dest:i src1:y len:3 tls_get: dest:i len:20 atomic_add_i4: src1:b src2:i dest:i len:16 atomic_add_new_i4: src1:b src2:i dest:i len:16 atomic_exchange_i4: src1:b src2:i dest:i len:24 memory_barrier: len:16