d4de0e6f1e
I was über lazy at first, so took libs from SM. But actually it's quite easy to compile, so let's update to latest version \o/.
422 lines
15 KiB
C
422 lines
15 KiB
C
/*
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* Stack-less Just-In-Time compiler
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*
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* Copyright 2009-2012 Zoltan Herczeg (hzmester@freemail.hu). All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without modification, are
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* permitted provided that the following conditions are met:
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*
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* 1. Redistributions of source code must retain the above copyright notice, this list of
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* conditions and the following disclaimer.
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*
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* 2. Redistributions in binary form must reproduce the above copyright notice, this list
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* of conditions and the following disclaimer in the documentation and/or other materials
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* provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER(S) AND CONTRIBUTORS ``AS IS'' AND ANY
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* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
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* SHALL THE COPYRIGHT HOLDER(S) OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
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* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/* ppc 64-bit arch dependent functions. */
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#if defined(__GNUC__) || (defined(__IBM_GCC_ASM) && __IBM_GCC_ASM)
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#define ASM_SLJIT_CLZ(src, dst) \
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__asm__ volatile ( "cntlzd %0, %1" : "=r"(dst) : "r"(src) )
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#elif defined(__xlc__)
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#error "Please enable GCC syntax for inline assembly statements"
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#else
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#error "Must implement count leading zeroes"
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#endif
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#define RLDI(dst, src, sh, mb, type) \
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(HI(30) | S(src) | A(dst) | ((type) << 2) | (((sh) & 0x1f) << 11) | (((sh) & 0x20) >> 4) | (((mb) & 0x1f) << 6) | ((mb) & 0x20))
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#define PUSH_RLDICR(reg, shift) \
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push_inst(compiler, RLDI(reg, reg, 63 - shift, shift, 1))
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static sljit_si load_immediate(struct sljit_compiler *compiler, sljit_si reg, sljit_sw imm)
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{
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sljit_uw tmp;
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sljit_uw shift;
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sljit_uw tmp2;
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sljit_uw shift2;
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if (imm <= SIMM_MAX && imm >= SIMM_MIN)
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return push_inst(compiler, ADDI | D(reg) | A(0) | IMM(imm));
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if (!(imm & ~0xffff))
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return push_inst(compiler, ORI | S(TMP_ZERO) | A(reg) | IMM(imm));
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if (imm <= 0x7fffffffl && imm >= -0x80000000l) {
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FAIL_IF(push_inst(compiler, ADDIS | D(reg) | A(0) | IMM(imm >> 16)));
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return (imm & 0xffff) ? push_inst(compiler, ORI | S(reg) | A(reg) | IMM(imm)) : SLJIT_SUCCESS;
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}
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/* Count leading zeroes. */
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tmp = (imm >= 0) ? imm : ~imm;
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ASM_SLJIT_CLZ(tmp, shift);
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SLJIT_ASSERT(shift > 0);
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shift--;
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tmp = (imm << shift);
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if ((tmp & ~0xffff000000000000ul) == 0) {
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FAIL_IF(push_inst(compiler, ADDI | D(reg) | A(0) | IMM(tmp >> 48)));
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shift += 15;
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return PUSH_RLDICR(reg, shift);
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}
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if ((tmp & ~0xffffffff00000000ul) == 0) {
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FAIL_IF(push_inst(compiler, ADDIS | D(reg) | A(0) | IMM(tmp >> 48)));
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FAIL_IF(push_inst(compiler, ORI | S(reg) | A(reg) | IMM(tmp >> 32)));
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shift += 31;
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return PUSH_RLDICR(reg, shift);
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}
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/* Cut out the 16 bit from immediate. */
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shift += 15;
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tmp2 = imm & ((1ul << (63 - shift)) - 1);
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if (tmp2 <= 0xffff) {
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FAIL_IF(push_inst(compiler, ADDI | D(reg) | A(0) | IMM(tmp >> 48)));
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FAIL_IF(PUSH_RLDICR(reg, shift));
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return push_inst(compiler, ORI | S(reg) | A(reg) | tmp2);
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}
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if (tmp2 <= 0xffffffff) {
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FAIL_IF(push_inst(compiler, ADDI | D(reg) | A(0) | IMM(tmp >> 48)));
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FAIL_IF(PUSH_RLDICR(reg, shift));
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FAIL_IF(push_inst(compiler, ORIS | S(reg) | A(reg) | (tmp2 >> 16)));
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return (imm & 0xffff) ? push_inst(compiler, ORI | S(reg) | A(reg) | IMM(tmp2)) : SLJIT_SUCCESS;
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}
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ASM_SLJIT_CLZ(tmp2, shift2);
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tmp2 <<= shift2;
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if ((tmp2 & ~0xffff000000000000ul) == 0) {
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FAIL_IF(push_inst(compiler, ADDI | D(reg) | A(0) | IMM(tmp >> 48)));
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shift2 += 15;
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shift += (63 - shift2);
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FAIL_IF(PUSH_RLDICR(reg, shift));
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FAIL_IF(push_inst(compiler, ORI | S(reg) | A(reg) | (tmp2 >> 48)));
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return PUSH_RLDICR(reg, shift2);
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}
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/* The general version. */
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FAIL_IF(push_inst(compiler, ADDIS | D(reg) | A(0) | IMM(imm >> 48)));
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FAIL_IF(push_inst(compiler, ORI | S(reg) | A(reg) | IMM(imm >> 32)));
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FAIL_IF(PUSH_RLDICR(reg, 31));
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FAIL_IF(push_inst(compiler, ORIS | S(reg) | A(reg) | IMM(imm >> 16)));
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return push_inst(compiler, ORI | S(reg) | A(reg) | IMM(imm));
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}
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/* Simplified mnemonics: clrldi. */
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#define INS_CLEAR_LEFT(dst, src, from) \
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(RLDICL | S(src) | A(dst) | ((from) << 6) | (1 << 5))
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/* Sign extension for integer operations. */
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#define UN_EXTS() \
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if ((flags & (ALT_SIGN_EXT | REG2_SOURCE)) == (ALT_SIGN_EXT | REG2_SOURCE)) { \
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FAIL_IF(push_inst(compiler, EXTSW | S(src2) | A(TMP_REG2))); \
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src2 = TMP_REG2; \
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}
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#define BIN_EXTS() \
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if (flags & ALT_SIGN_EXT) { \
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if (flags & REG1_SOURCE) { \
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FAIL_IF(push_inst(compiler, EXTSW | S(src1) | A(TMP_REG1))); \
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src1 = TMP_REG1; \
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} \
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if (flags & REG2_SOURCE) { \
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FAIL_IF(push_inst(compiler, EXTSW | S(src2) | A(TMP_REG2))); \
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src2 = TMP_REG2; \
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} \
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}
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#define BIN_IMM_EXTS() \
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if ((flags & (ALT_SIGN_EXT | REG1_SOURCE)) == (ALT_SIGN_EXT | REG1_SOURCE)) { \
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FAIL_IF(push_inst(compiler, EXTSW | S(src1) | A(TMP_REG1))); \
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src1 = TMP_REG1; \
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}
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static SLJIT_INLINE sljit_si emit_single_op(struct sljit_compiler *compiler, sljit_si op, sljit_si flags,
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sljit_si dst, sljit_si src1, sljit_si src2)
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{
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switch (op) {
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case SLJIT_MOV:
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case SLJIT_MOV_P:
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SLJIT_ASSERT(src1 == TMP_REG1);
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if (dst != src2)
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return push_inst(compiler, OR | S(src2) | A(dst) | B(src2));
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return SLJIT_SUCCESS;
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case SLJIT_MOV_UI:
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case SLJIT_MOV_SI:
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SLJIT_ASSERT(src1 == TMP_REG1);
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if ((flags & (REG_DEST | REG2_SOURCE)) == (REG_DEST | REG2_SOURCE)) {
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if (op == SLJIT_MOV_SI)
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return push_inst(compiler, EXTSW | S(src2) | A(dst));
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return push_inst(compiler, INS_CLEAR_LEFT(dst, src2, 0));
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}
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else {
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SLJIT_ASSERT(dst == src2);
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}
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return SLJIT_SUCCESS;
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case SLJIT_MOV_UB:
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case SLJIT_MOV_SB:
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SLJIT_ASSERT(src1 == TMP_REG1);
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if ((flags & (REG_DEST | REG2_SOURCE)) == (REG_DEST | REG2_SOURCE)) {
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if (op == SLJIT_MOV_SB)
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return push_inst(compiler, EXTSB | S(src2) | A(dst));
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return push_inst(compiler, INS_CLEAR_LEFT(dst, src2, 24));
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}
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else if ((flags & REG_DEST) && op == SLJIT_MOV_SB)
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return push_inst(compiler, EXTSB | S(src2) | A(dst));
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else {
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SLJIT_ASSERT(dst == src2);
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}
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return SLJIT_SUCCESS;
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case SLJIT_MOV_UH:
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case SLJIT_MOV_SH:
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SLJIT_ASSERT(src1 == TMP_REG1);
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if ((flags & (REG_DEST | REG2_SOURCE)) == (REG_DEST | REG2_SOURCE)) {
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if (op == SLJIT_MOV_SH)
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return push_inst(compiler, EXTSH | S(src2) | A(dst));
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return push_inst(compiler, INS_CLEAR_LEFT(dst, src2, 16));
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}
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else {
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SLJIT_ASSERT(dst == src2);
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}
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return SLJIT_SUCCESS;
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case SLJIT_NOT:
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SLJIT_ASSERT(src1 == TMP_REG1);
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UN_EXTS();
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return push_inst(compiler, NOR | RC(flags) | S(src2) | A(dst) | B(src2));
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case SLJIT_NEG:
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SLJIT_ASSERT(src1 == TMP_REG1);
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UN_EXTS();
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return push_inst(compiler, NEG | OERC(flags) | D(dst) | A(src2));
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case SLJIT_CLZ:
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SLJIT_ASSERT(src1 == TMP_REG1);
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if (flags & ALT_FORM1)
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return push_inst(compiler, CNTLZW | RC(flags) | S(src2) | A(dst));
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return push_inst(compiler, CNTLZD | RC(flags) | S(src2) | A(dst));
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case SLJIT_ADD:
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if (flags & ALT_FORM1) {
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/* Flags does not set: BIN_IMM_EXTS unnecessary. */
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, ADDI | D(dst) | A(src1) | compiler->imm);
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}
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if (flags & ALT_FORM2) {
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/* Flags does not set: BIN_IMM_EXTS unnecessary. */
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, ADDIS | D(dst) | A(src1) | compiler->imm);
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}
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if (flags & ALT_FORM3) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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BIN_IMM_EXTS();
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return push_inst(compiler, ADDIC | D(dst) | A(src1) | compiler->imm);
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}
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if (flags & ALT_FORM4) {
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/* Flags does not set: BIN_IMM_EXTS unnecessary. */
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FAIL_IF(push_inst(compiler, ADDI | D(dst) | A(src1) | (compiler->imm & 0xffff)));
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return push_inst(compiler, ADDIS | D(dst) | A(dst) | (((compiler->imm >> 16) & 0xffff) + ((compiler->imm >> 15) & 0x1)));
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}
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if (!(flags & ALT_SET_FLAGS))
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return push_inst(compiler, ADD | D(dst) | A(src1) | B(src2));
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BIN_EXTS();
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return push_inst(compiler, ADDC | OERC(ALT_SET_FLAGS) | D(dst) | A(src1) | B(src2));
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case SLJIT_ADDC:
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if (flags & ALT_FORM1) {
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FAIL_IF(push_inst(compiler, MFXER | D(0)));
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FAIL_IF(push_inst(compiler, ADDE | D(dst) | A(src1) | B(src2)));
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return push_inst(compiler, MTXER | S(0));
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}
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BIN_EXTS();
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return push_inst(compiler, ADDE | D(dst) | A(src1) | B(src2));
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case SLJIT_SUB:
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if (flags & ALT_FORM1) {
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/* Flags does not set: BIN_IMM_EXTS unnecessary. */
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, SUBFIC | D(dst) | A(src1) | compiler->imm);
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}
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if (flags & (ALT_FORM2 | ALT_FORM3)) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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if (flags & ALT_FORM2)
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FAIL_IF(push_inst(compiler, CMPI | CRD(0 | ((flags & ALT_SIGN_EXT) ? 0 : 1)) | A(src1) | compiler->imm));
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if (flags & ALT_FORM3)
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return push_inst(compiler, CMPLI | CRD(4 | ((flags & ALT_SIGN_EXT) ? 0 : 1)) | A(src1) | compiler->imm);
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return SLJIT_SUCCESS;
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}
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if (flags & (ALT_FORM4 | ALT_FORM5)) {
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if (flags & ALT_FORM4)
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FAIL_IF(push_inst(compiler, CMPL | CRD(4 | ((flags & ALT_SIGN_EXT) ? 0 : 1)) | A(src1) | B(src2)));
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if (flags & ALT_FORM5)
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return push_inst(compiler, CMP | CRD(0 | ((flags & ALT_SIGN_EXT) ? 0 : 1)) | A(src1) | B(src2));
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return SLJIT_SUCCESS;
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}
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if (!(flags & ALT_SET_FLAGS))
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return push_inst(compiler, SUBF | D(dst) | A(src2) | B(src1));
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BIN_EXTS();
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if (flags & ALT_FORM6)
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FAIL_IF(push_inst(compiler, CMPL | CRD(4 | ((flags & ALT_SIGN_EXT) ? 0 : 1)) | A(src1) | B(src2)));
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return push_inst(compiler, SUBFC | OERC(ALT_SET_FLAGS) | D(dst) | A(src2) | B(src1));
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case SLJIT_SUBC:
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if (flags & ALT_FORM1) {
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FAIL_IF(push_inst(compiler, MFXER | D(0)));
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FAIL_IF(push_inst(compiler, SUBFE | D(dst) | A(src2) | B(src1)));
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return push_inst(compiler, MTXER | S(0));
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}
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BIN_EXTS();
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return push_inst(compiler, SUBFE | D(dst) | A(src2) | B(src1));
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case SLJIT_MUL:
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, MULLI | D(dst) | A(src1) | compiler->imm);
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}
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BIN_EXTS();
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if (flags & ALT_FORM2)
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return push_inst(compiler, MULLW | OERC(flags) | D(dst) | A(src2) | B(src1));
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return push_inst(compiler, MULLD | OERC(flags) | D(dst) | A(src2) | B(src1));
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case SLJIT_AND:
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, ANDI | S(src1) | A(dst) | compiler->imm);
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}
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if (flags & ALT_FORM2) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, ANDIS | S(src1) | A(dst) | compiler->imm);
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}
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return push_inst(compiler, AND | RC(flags) | S(src1) | A(dst) | B(src2));
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case SLJIT_OR:
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, ORI | S(src1) | A(dst) | compiler->imm);
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}
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if (flags & ALT_FORM2) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, ORIS | S(src1) | A(dst) | compiler->imm);
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}
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if (flags & ALT_FORM3) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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FAIL_IF(push_inst(compiler, ORI | S(src1) | A(dst) | IMM(compiler->imm)));
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return push_inst(compiler, ORIS | S(dst) | A(dst) | IMM(compiler->imm >> 16));
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}
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return push_inst(compiler, OR | RC(flags) | S(src1) | A(dst) | B(src2));
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case SLJIT_XOR:
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, XORI | S(src1) | A(dst) | compiler->imm);
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}
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if (flags & ALT_FORM2) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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return push_inst(compiler, XORIS | S(src1) | A(dst) | compiler->imm);
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}
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if (flags & ALT_FORM3) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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FAIL_IF(push_inst(compiler, XORI | S(src1) | A(dst) | IMM(compiler->imm)));
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return push_inst(compiler, XORIS | S(dst) | A(dst) | IMM(compiler->imm >> 16));
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}
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return push_inst(compiler, XOR | RC(flags) | S(src1) | A(dst) | B(src2));
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case SLJIT_SHL:
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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if (flags & ALT_FORM2) {
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compiler->imm &= 0x1f;
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return push_inst(compiler, RLWINM | RC(flags) | S(src1) | A(dst) | (compiler->imm << 11) | ((31 - compiler->imm) << 1));
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}
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else {
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compiler->imm &= 0x3f;
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return push_inst(compiler, RLDI(dst, src1, compiler->imm, 63 - compiler->imm, 1) | RC(flags));
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}
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}
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return push_inst(compiler, ((flags & ALT_FORM2) ? SLW : SLD) | RC(flags) | S(src1) | A(dst) | B(src2));
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case SLJIT_LSHR:
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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if (flags & ALT_FORM2) {
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compiler->imm &= 0x1f;
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return push_inst(compiler, RLWINM | RC(flags) | S(src1) | A(dst) | (((32 - compiler->imm) & 0x1f) << 11) | (compiler->imm << 6) | (31 << 1));
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}
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else {
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compiler->imm &= 0x3f;
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return push_inst(compiler, RLDI(dst, src1, 64 - compiler->imm, compiler->imm, 0) | RC(flags));
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}
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}
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return push_inst(compiler, ((flags & ALT_FORM2) ? SRW : SRD) | RC(flags) | S(src1) | A(dst) | B(src2));
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case SLJIT_ASHR:
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if (flags & ALT_FORM3)
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FAIL_IF(push_inst(compiler, MFXER | D(0)));
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if (flags & ALT_FORM1) {
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SLJIT_ASSERT(src2 == TMP_REG2);
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if (flags & ALT_FORM2) {
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compiler->imm &= 0x1f;
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FAIL_IF(push_inst(compiler, SRAWI | RC(flags) | S(src1) | A(dst) | (compiler->imm << 11)));
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}
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else {
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compiler->imm &= 0x3f;
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FAIL_IF(push_inst(compiler, SRADI | RC(flags) | S(src1) | A(dst) | ((compiler->imm & 0x1f) << 11) | ((compiler->imm & 0x20) >> 4)));
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}
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}
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else
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FAIL_IF(push_inst(compiler, ((flags & ALT_FORM2) ? SRAW : SRAD) | RC(flags) | S(src1) | A(dst) | B(src2)));
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return (flags & ALT_FORM3) ? push_inst(compiler, MTXER | S(0)) : SLJIT_SUCCESS;
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}
|
|
|
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SLJIT_ASSERT_STOP();
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return SLJIT_SUCCESS;
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|
}
|
|
|
|
static SLJIT_INLINE sljit_si emit_const(struct sljit_compiler *compiler, sljit_si reg, sljit_sw init_value)
|
|
{
|
|
FAIL_IF(push_inst(compiler, ADDIS | D(reg) | A(0) | IMM(init_value >> 48)));
|
|
FAIL_IF(push_inst(compiler, ORI | S(reg) | A(reg) | IMM(init_value >> 32)));
|
|
FAIL_IF(PUSH_RLDICR(reg, 31));
|
|
FAIL_IF(push_inst(compiler, ORIS | S(reg) | A(reg) | IMM(init_value >> 16)));
|
|
return push_inst(compiler, ORI | S(reg) | A(reg) | IMM(init_value));
|
|
}
|
|
|
|
SLJIT_API_FUNC_ATTRIBUTE void sljit_set_jump_addr(sljit_uw addr, sljit_uw new_addr)
|
|
{
|
|
sljit_ins *inst = (sljit_ins*)addr;
|
|
|
|
inst[0] = (inst[0] & 0xffff0000) | ((new_addr >> 48) & 0xffff);
|
|
inst[1] = (inst[1] & 0xffff0000) | ((new_addr >> 32) & 0xffff);
|
|
inst[3] = (inst[3] & 0xffff0000) | ((new_addr >> 16) & 0xffff);
|
|
inst[4] = (inst[4] & 0xffff0000) | (new_addr & 0xffff);
|
|
SLJIT_CACHE_FLUSH(inst, inst + 5);
|
|
}
|
|
|
|
SLJIT_API_FUNC_ATTRIBUTE void sljit_set_const(sljit_uw addr, sljit_sw new_constant)
|
|
{
|
|
sljit_ins *inst = (sljit_ins*)addr;
|
|
|
|
inst[0] = (inst[0] & 0xffff0000) | ((new_constant >> 48) & 0xffff);
|
|
inst[1] = (inst[1] & 0xffff0000) | ((new_constant >> 32) & 0xffff);
|
|
inst[3] = (inst[3] & 0xffff0000) | ((new_constant >> 16) & 0xffff);
|
|
inst[4] = (inst[4] & 0xffff0000) | (new_constant & 0xffff);
|
|
SLJIT_CACHE_FLUSH(inst, inst + 5);
|
|
}
|