/* libs/pixelflinger/codeflinger/ARMAssemblerInterface.cpp ** ** Copyright 2006, The Android Open Source Project ** ** Licensed under the Apache License, Version 2.0 (the "License"); ** you may not use this file except in compliance with the License. ** You may obtain a copy of the License at ** ** http://www.apache.org/licenses/LICENSE-2.0 ** ** Unless required by applicable law or agreed to in writing, software ** distributed under the License is distributed on an "AS IS" BASIS, ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ** See the License for the specific language governing permissions and ** limitations under the License. */ #include #include #include #include #include #include "codeflinger/ARMAssemblerInterface.h" namespace android { // ---------------------------------------------------------------------------- ARMAssemblerInterface::~ARMAssemblerInterface() { } int ARMAssemblerInterface::buildImmediate( uint32_t immediate, uint32_t& rot, uint32_t& imm) { rot = 0; imm = immediate; if (imm > 0x7F) { // skip the easy cases while (!(imm&3) || (imm&0xFC000000)) { uint32_t newval; newval = imm >> 2; newval |= (imm&3) << 30; imm = newval; rot += 2; if (rot == 32) { rot = 0; break; } } } rot = (16 - (rot>>1)) & 0xF; if (imm>=0x100) return -EINVAL; if (((imm>>(rot<<1)) | (imm<<(32-(rot<<1)))) != immediate) return -1; return 0; } // shifters... bool ARMAssemblerInterface::isValidImmediate(uint32_t immediate) { uint32_t rot, imm; return buildImmediate(immediate, rot, imm) == 0; } uint32_t ARMAssemblerInterface::imm(uint32_t immediate) { uint32_t rot, imm; int err = buildImmediate(immediate, rot, imm); LOG_ALWAYS_FATAL_IF(err==-EINVAL, "immediate %08x cannot be encoded", immediate); LOG_ALWAYS_FATAL_IF(err, "immediate (%08x) encoding bogus!", immediate); return (1<<25) | (rot<<8) | imm; } uint32_t ARMAssemblerInterface::reg_imm(int Rm, int type, uint32_t shift) { return ((shift&0x1F)<<7) | ((type&0x3)<<5) | (Rm&0xF); } uint32_t ARMAssemblerInterface::reg_rrx(int Rm) { return (ROR<<5) | (Rm&0xF); } uint32_t ARMAssemblerInterface::reg_reg(int Rm, int type, int Rs) { return ((Rs&0xF)<<8) | ((type&0x3)<<5) | (1<<4) | (Rm&0xF); } // addressing modes... // LDR(B)/STR(B)/PLD (immediate and Rm can be negative, which indicate U=0) uint32_t ARMAssemblerInterface::immed12_pre(int32_t immed12, int W) { LOG_ALWAYS_FATAL_IF(abs(immed12) >= 0x800, "LDR(B)/STR(B)/PLD immediate too big (%08x)", immed12); return (1<<24) | (((uint32_t(immed12)>>31)^1)<<23) | ((W&1)<<21) | (abs(immed12)&0x7FF); } uint32_t ARMAssemblerInterface::immed12_post(int32_t immed12) { LOG_ALWAYS_FATAL_IF(abs(immed12) >= 0x800, "LDR(B)/STR(B)/PLD immediate too big (%08x)", immed12); return (((uint32_t(immed12)>>31)^1)<<23) | (abs(immed12)&0x7FF); } uint32_t ARMAssemblerInterface::reg_scale_pre(int Rm, int type, uint32_t shift, int W) { return (1<<25) | (1<<24) | (((uint32_t(Rm)>>31)^1)<<23) | ((W&1)<<21) | reg_imm(abs(Rm), type, shift); } uint32_t ARMAssemblerInterface::reg_scale_post(int Rm, int type, uint32_t shift) { return (1<<25) | (((uint32_t(Rm)>>31)^1)<<23) | reg_imm(abs(Rm), type, shift); } // LDRH/LDRSB/LDRSH/STRH (immediate and Rm can be negative, which indicate U=0) uint32_t ARMAssemblerInterface::immed8_pre(int32_t immed8, int W) { uint32_t offset = abs(immed8); LOG_ALWAYS_FATAL_IF(abs(immed8) >= 0x100, "LDRH/LDRSB/LDRSH/STRH immediate too big (%08x)", immed8); return (1<<24) | (1<<22) | (((uint32_t(immed8)>>31)^1)<<23) | ((W&1)<<21) | (((offset&0xF0)<<4)|(offset&0xF)); } uint32_t ARMAssemblerInterface::immed8_post(int32_t immed8) { uint32_t offset = abs(immed8); LOG_ALWAYS_FATAL_IF(abs(immed8) >= 0x100, "LDRH/LDRSB/LDRSH/STRH immediate too big (%08x)", immed8); return (1<<22) | (((uint32_t(immed8)>>31)^1)<<23) | (((offset&0xF0)<<4) | (offset&0xF)); } uint32_t ARMAssemblerInterface::reg_pre(int Rm, int W) { return (1<<24) | (((uint32_t(Rm)>>31)^1)<<23) | ((W&1)<<21) | (abs(Rm)&0xF); } uint32_t ARMAssemblerInterface::reg_post(int Rm) { return (((uint32_t(Rm)>>31)^1)<<23) | (abs(Rm)&0xF); } }; // namespace android