| %default { "naninst":"mvn r1, #0" } |
| %verify "executed" |
| %verify "basic lt, gt, eq */ |
| %verify "left arg NaN" |
| %verify "right arg NaN" |
| /* |
| * Compare two floating-point values. Puts 0, 1, or -1 into the |
| * destination register based on the results of the comparison. |
| * |
| * Provide a "naninst" instruction that puts 1 or -1 into r1 depending |
| * on what value we'd like to return when one of the operands is NaN. |
| * |
| * See OP_CMPL_FLOAT for an explanation. |
| * |
| * For: cmpl-double, cmpg-double |
| */ |
| /* op vAA, vBB, vCC */ |
| FETCH(r0, 1) @ r0<- CCBB |
| and r9, r0, #255 @ r9<- BB |
| mov r10, r0, lsr #8 @ r10<- CC |
| add r9, rFP, r9, lsl #2 @ r9<- &fp[BB] |
| add r10, rFP, r10, lsl #2 @ r10<- &fp[CC] |
| ldmia r9, {r0-r1} @ r0/r1<- vBB/vBB+1 |
| ldmia r10, {r2-r3} @ r2/r3<- vCC/vCC+1 |
| bl __aeabi_cdcmple @ cmp <=: C clear if <, Z set if eq |
| bhi .L${opcode}_gt_or_nan @ C set and Z clear, disambiguate |
| mvncc r1, #0 @ (less than) r1<- -1 |
| moveq r1, #0 @ (equal) r1<- 0, trumps less than |
| .L${opcode}_finish: |
| mov r3, rINST, lsr #8 @ r3<- AA |
| FETCH_ADVANCE_INST(2) @ advance rPC, load rINST |
| SET_VREG(r1, r3) @ vAA<- r1 |
| GET_INST_OPCODE(ip) @ extract opcode from rINST |
| GOTO_OPCODE(ip) @ jump to next instruction |
| %break |
| |
| @ Test for NaN with a second comparison. EABI forbids testing bit |
| @ patterns, and we can't represent 0x7fc00000 in immediate form, so |
| @ make the library call. |
| .L${opcode}_gt_or_nan: |
| ldmia r10, {r0-r1} @ reverse order |
| ldmia r9, {r2-r3} |
| bl __aeabi_cdcmple @ r0<- Z set if eq, C clear if < |
| @bleq common_abort |
| movcc r1, #1 @ (greater than) r1<- 1 |
| bcc .L${opcode}_finish |
| $naninst @ r1<- 1 or -1 for NaN |
| b .L${opcode}_finish |