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-rw-r--r--trunk/src/emu/cpu/sh2/sh2fe.c764
1 files changed, 764 insertions, 0 deletions
diff --git a/trunk/src/emu/cpu/sh2/sh2fe.c b/trunk/src/emu/cpu/sh2/sh2fe.c
new file mode 100644
index 00000000000..5cbc7c3f57b
--- /dev/null
+++ b/trunk/src/emu/cpu/sh2/sh2fe.c
@@ -0,0 +1,764 @@
+/***************************************************************************
+
+ sh2fe.c
+
+ Front end for SH-2 recompiler
+
+ Released for general non-commercial use under the MAME license
+ Visit http://mamedev.org for licensing and usage restrictions.
+
+***************************************************************************/
+
+#include "emu.h"
+#include "sh2.h"
+#include "sh2comn.h"
+#include "cpu/drcfe.h"
+
+#ifdef USE_SH2DRC
+/***************************************************************************
+ INSTRUCTION PARSERS
+***************************************************************************/
+
+sh2_frontend::sh2_frontend(sh2_state &state, UINT32 window_start, UINT32 window_end, UINT32 max_sequence)
+ : drc_frontend(*state.device, window_start, window_end, max_sequence),
+ m_context(state)
+{
+}
+
+/*-------------------------------------------------
+ describe_instruction - build a description
+ of a single instruction
+-------------------------------------------------*/
+
+bool sh2_frontend::describe(opcode_desc &desc, const opcode_desc *prev)
+{
+ UINT16 opcode;
+
+ /* fetch the opcode */
+ opcode = desc.opptr.w[0] = m_context.direct->read_decrypted_word(desc.physpc, SH2_CODE_XOR(0));
+
+ /* all instructions are 2 bytes and most are a single cycle */
+ desc.length = 2;
+ desc.cycles = 1;
+
+ switch (opcode>>12)
+ {
+ case 0:
+ return describe_group_0(desc, prev, opcode);
+
+ case 1: // MOVLS4
+ desc.regin[0] |= REGFLAG_R(Rn) | REGFLAG_R(Rm);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 2:
+ return describe_group_2(desc, prev, opcode);
+
+ case 3:
+ return describe_group_3(desc, prev, opcode);
+
+ case 4:
+ return describe_group_4(desc, prev, opcode);
+
+ case 5: // MOVLL4
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 6:
+ return describe_group_6(desc, prev, opcode);
+
+ case 7: // ADDI
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 8:
+ return describe_group_8(desc, prev, opcode);
+
+ case 9: // MOVWI
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 11: // BSR
+ desc.regout[1] |= REGFLAG_PR;
+ // (intentional fallthrough - BSR is BRA with the addition of PR = the return address)
+ case 10: // BRA
+ {
+ INT32 disp = ((INT32)opcode << 20) >> 20;
+
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ desc.targetpc = (desc.pc + 2) + disp * 2 + 2;
+ desc.delayslots = 1;
+ desc.cycles = 2;
+ return true;
+ }
+
+ case 12:
+ return describe_group_12(desc, prev, opcode);
+
+ case 13: // MOVLI
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 14: // MOVI
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 15: // NOP
+ return true;
+ }
+
+ return false;
+}
+
+bool sh2_frontend::describe_group_0(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ switch (opcode & 0x3F)
+ {
+ case 0x00: // NOP();
+ case 0x01: // NOP();
+ case 0x09: // NOP();
+ case 0x10: // NOP();
+ case 0x11: // NOP();
+ case 0x13: // NOP();
+ case 0x20: // NOP();
+ case 0x21: // NOP();
+ case 0x30: // NOP();
+ case 0x31: // NOP();
+ case 0x32: // NOP();
+ case 0x33: // NOP();
+ case 0x38: // NOP();
+ case 0x39: // NOP();
+ case 0x3a: // NOP();
+ case 0x3b: // NOP();
+ return true;
+
+ case 0x02: // STCSR(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 0x03: // BSRF(Rn);
+ desc.regout[1] |= REGFLAG_PR;
+
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.delayslots = 1;
+
+ return true;
+
+ case 0x04: // MOVBS0(Rm, Rn);
+ case 0x05: // MOVWS0(Rm, Rn);
+ case 0x06: // MOVLS0(Rm, Rn);
+ case 0x14: // MOVBS0(Rm, Rn);
+ case 0x15: // MOVWS0(Rm, Rn);
+ case 0x16: // MOVLS0(Rm, Rn);
+ case 0x24: // MOVBS0(Rm, Rn);
+ case 0x25: // MOVWS0(Rm, Rn);
+ case 0x26: // MOVLS0(Rm, Rn);
+ case 0x34: // MOVBS0(Rm, Rn);
+ case 0x35: // MOVWS0(Rm, Rn);
+ case 0x36: // MOVLS0(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn) | REGFLAG_R(0);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x07: // MULL(Rm, Rn);
+ case 0x17: // MULL(Rm, Rn);
+ case 0x27: // MULL(Rm, Rn);
+ case 0x37: // MULL(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rn) | REGFLAG_R(Rm);
+ desc.regout[1] |= REGFLAG_MACL;
+ desc.cycles = 2;
+ return true;
+
+ case 0x08: // CLRT();
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x0a: // STSMACH(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACH;
+ return true;
+
+ case 0x0b: // RTS();
+ desc.regin[1] |= REGFLAG_PR;
+
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.delayslots = 1;
+ desc.cycles = 2;
+
+ return true;
+
+ case 0x0c: // MOVBL0(Rm, Rn);
+ case 0x0d: // MOVWL0(Rm, Rn);
+ case 0x0e: // MOVLL0(Rm, Rn);
+ case 0x1c: // MOVBL0(Rm, Rn);
+ case 0x1d: // MOVWL0(Rm, Rn);
+ case 0x1e: // MOVLL0(Rm, Rn);
+ case 0x2c: // MOVBL0(Rm, Rn);
+ case 0x2d: // MOVWL0(Rm, Rn);
+ case 0x2e: // MOVLL0(Rm, Rn);
+ case 0x3c: // MOVBL0(Rm, Rn);
+ case 0x3d: // MOVWL0(Rm, Rn);
+ case 0x3e: // MOVLL0(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(0);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x0f: // MAC_L(Rm, Rn);
+ case 0x1f: // MAC_L(Rm, Rn);
+ case 0x2f: // MAC_L(Rm, Rn);
+ case 0x3f: // MAC_L(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACL | REGFLAG_MACH;
+ desc.cycles = 3;
+ return true;
+
+ case 0x12: // STCGBR(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_GBR;
+ return true;
+
+ case 0x18: // SETT();
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x19: // DIV0U();
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x1a: // STSMACL(Rn);
+ desc.regin[1] |= REGFLAG_MACL;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 0x1b: // SLEEP();
+ desc.cycles = 3;
+ return true;
+
+ case 0x22: // STCVBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_VBR;
+ return true;
+
+ case 0x23: // BRAF(Rn);
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.delayslots = 1;
+ desc.cycles = 2;
+ return true;
+
+ case 0x28: // CLRMAC();
+ desc.regout[1] |= REGFLAG_MACL | REGFLAG_MACH;
+ return true;
+
+ case 0x29: // MOVT(Rn);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 0x2a: // STSPR(Rn);
+ desc.regin[1] |= REGFLAG_PR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 0x2b: // RTE();
+ desc.regin[0] |= REGFLAG_R(15);
+ desc.regout[0] |= REGFLAG_R(15);
+
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE | OPFLAG_CAN_EXPOSE_EXTERNAL_INT;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.delayslots = 1;
+ desc.cycles = 4;
+
+ return true;
+ }
+
+ return false;
+}
+
+bool sh2_frontend::describe_group_2(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ switch (opcode & 15)
+ {
+ case 0: // MOVBS(Rm, Rn);
+ case 1: // MOVWS(Rm, Rn);
+ case 2: // MOVLS(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 3: // NOP();
+ return true;
+
+ case 4: // MOVBM(Rm, Rn);
+ case 5: // MOVWM(Rm, Rn);
+ case 6: // MOVLM(Rm, Rn);
+ case 13: // XTRCT(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 7: // DIV0S(Rm, Rn);
+ case 8: // TST(Rm, Rn);
+ case 12: // CMPSTR(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 9: // AND(Rm, Rn);
+ case 10: // XOR(Rm, Rn);
+ case 11: // OR(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 14: // MULU(Rm, Rn);
+ case 15: // MULS(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACL | REGFLAG_MACH;
+ desc.cycles = 2;
+ return true;
+ }
+
+ return false;
+}
+
+bool sh2_frontend::describe_group_3(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ switch (opcode & 15)
+ {
+ case 0: // CMPEQ(Rm, Rn);
+ case 2: // CMPHS(Rm, Rn);
+ case 3: // CMPGE(Rm, Rn);
+ case 6: // CMPHI(Rm, Rn);
+ case 7: // CMPGT(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 1: // NOP();
+ case 9: // NOP();
+ return true;
+
+ case 4: // DIV1(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 5: // DMULU(Rm, Rn);
+ case 13: // DMULS(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACL | REGFLAG_MACH;
+ desc.cycles = 2;
+ return true;
+
+ case 8: // SUB(Rm, Rn);
+ case 12: // ADD(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 10: // SUBC(Rm, Rn);
+ case 11: // SUBV(Rm, Rn);
+ case 14: // ADDC(Rm, Rn);
+ case 15: // ADDV(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+ }
+ return false;
+}
+
+bool sh2_frontend::describe_group_4(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ switch (opcode & 0x3F)
+ {
+ case 0x00: // SHLL(Rn);
+ case 0x01: // SHLR(Rn);
+ case 0x04: // ROTL(Rn);
+ case 0x05: // ROTR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x02: // STSMMACH(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_MACH;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x03: // STCMSR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.cycles = 2;
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x06: // LDSMMACH(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACH;
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x07: // LDCMSR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ desc.cycles = 3;
+ desc.flags |= OPFLAG_READS_MEMORY | OPFLAG_CAN_EXPOSE_EXTERNAL_INT | OPFLAG_END_SEQUENCE;
+ return true;
+
+ case 0x08: // SHLL2(Rn);
+ case 0x09: // SHLR2(Rn);
+ case 0x18: // SHLL8(Rn);
+ case 0x19: // SHLR8(Rn);
+ case 0x28: // SHLL16(Rn);
+ case 0x29: // SHLR16(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 0x0a: // LDSMACH(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACH;
+ return true;
+
+ case 0x0b: // JSR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_PR;
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.delayslots = 1;
+ return true;
+
+ case 0x0e: // LDCSR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ desc.flags |= OPFLAG_CAN_EXPOSE_EXTERNAL_INT | OPFLAG_END_SEQUENCE;
+ return true;
+
+ case 0x0f: // MAC_W(Rm, Rn);
+ case 0x1f: // MAC_W(Rm, Rn);
+ case 0x2f: // MAC_W(Rm, Rn);
+ case 0x3f: // MAC_W(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_MACL | REGFLAG_MACH;
+ desc.regout[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACL | REGFLAG_MACH;
+ desc.cycles = 3;
+ return true;
+
+ case 0x10: // DT(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x11: // CMPPZ(Rn);
+ case 0x15: // CMPPL(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x12: // STSMMACL(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_MACL;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x13: // STCMGBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_GBR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x16: // LDSMMACL(Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACL;
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x17: // LDCMGBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_GBR;
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x1a: // LDSMACL(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_MACL;
+ return true;
+
+ case 0x1b: // TAS(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[1] |= REGFLAG_SR;
+ desc.cycles = 4;
+ desc.flags |= OPFLAG_READS_MEMORY | OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x1e: // LDCGBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_GBR;
+ return true;
+
+ case 0x20: // SHAL(Rn);
+ case 0x21: // SHAR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x22: // STSMPR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_PR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x23: // STCMVBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_VBR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 0x24: // ROTCL(Rn);
+ case 0x25: // ROTCR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 0x26: // LDSMPR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_PR;
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x27: // LDCMVBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_VBR;
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 0x2a: // LDSPR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_PR;
+ return true;
+
+ case 0x2b: // JMP(Rm);
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.flags |= OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.delayslots = 1;
+ return true;
+
+ case 0x2e: // LDCVBR(Rn);
+ desc.regin[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_VBR;
+ return true;
+
+ case 0x0c: // NOP();
+ case 0x0d: // NOP();
+ case 0x14: // NOP();
+ case 0x1c: // NOP();
+ case 0x1d: // NOP();
+ case 0x2c: // NOP();
+ case 0x2d: // NOP();
+ case 0x30: // NOP();
+ case 0x31: // NOP();
+ case 0x32: // NOP();
+ case 0x33: // NOP();
+ case 0x34: // NOP();
+ case 0x35: // NOP();
+ case 0x36: // NOP();
+ case 0x37: // NOP();
+ case 0x38: // NOP();
+ case 0x39: // NOP();
+ case 0x3a: // NOP();
+ case 0x3b: // NOP();
+ case 0x3c: // NOP();
+ case 0x3d: // NOP();
+ case 0x3e: // NOP();
+ return true;
+ }
+
+ return false;
+}
+
+bool sh2_frontend::describe_group_6(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ switch (opcode & 15)
+ {
+ case 0: // MOVBL(Rm, Rn);
+ case 1: // MOVWL(Rm, Rn);
+ case 2: // MOVLL(Rm, Rn);
+ case 3: // MOV(Rm, Rn);
+ case 7: // NOT(Rm, Rn);
+ case 9: // SWAPW(Rm, Rn);
+ case 11: // NEG(Rm, Rn);
+ case 12: // EXTUB(Rm, Rn);
+ case 13: // EXTUW(Rm, Rn);
+ case 14: // EXTSB(Rm, Rn);
+ case 15: // EXTSW(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 4: // MOVBP(Rm, Rn);
+ case 5: // MOVWP(Rm, Rn);
+ case 6: // MOVLP(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 8: // SWAPB(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(Rn);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ return true;
+
+ case 10: // NEGC(Rm, Rn);
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.regout[0] |= REGFLAG_R(Rn);
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+ }
+ return false;
+}
+
+bool sh2_frontend::describe_group_8(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ INT32 disp;
+
+ switch ( opcode & (15<<8) )
+ {
+ case 0 << 8: // MOVBS4(opcode & 0x0f, Rm);
+ case 1 << 8: // MOVWS4(opcode & 0x0f, Rm);
+ desc.regin[0] |= REGFLAG_R(Rm) | REGFLAG_R(0);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 2<< 8: // NOP();
+ case 3<< 8: // NOP();
+ case 6<< 8: // NOP();
+ case 7<< 8: // NOP();
+ case 10<< 8: // NOP();
+ case 12<< 8: // NOP();
+ case 14<< 8: // NOP();
+ return true;
+
+ case 4<< 8: // MOVBL4(Rm, opcode & 0x0f);
+ case 5<< 8: // MOVWL4(Rm, opcode & 0x0f);
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.regout[0] |= REGFLAG_R(0);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 8<< 8: // CMPIM(opcode & 0xff);
+ desc.regin[0] |= REGFLAG_R(Rm);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 9<< 8: // BT(opcode & 0xff);
+ case 11<< 8: // BF(opcode & 0xff);
+ desc.flags |= OPFLAG_IS_CONDITIONAL_BRANCH;
+ desc.cycles = 3;
+ disp = ((INT32)opcode << 24) >> 24;
+ desc.targetpc = (desc.pc + 2) + disp * 2 + 2;
+ return true;
+
+ case 13<< 8: // BTS(opcode & 0xff);
+ case 15<< 8: // BFS(opcode & 0xff);
+ desc.flags |= OPFLAG_IS_CONDITIONAL_BRANCH;
+ desc.cycles = 2;
+ disp = ((INT32)opcode << 24) >> 24;
+ desc.targetpc = (desc.pc + 2) + disp * 2 + 2;
+ desc.delayslots = 1;
+ return true;
+ }
+
+ return false;
+}
+
+bool sh2_frontend::describe_group_12(opcode_desc &desc, const opcode_desc *prev, UINT16 opcode)
+{
+ switch (opcode & (15<<8))
+ {
+ case 0<<8: // MOVBSG(opcode & 0xff);
+ case 1<<8: // MOVWSG(opcode & 0xff);
+ case 2<<8: // MOVLSG(opcode & 0xff);
+ desc.regin[0] |= REGFLAG_R(0);
+ desc.flags |= OPFLAG_WRITES_MEMORY;
+ return true;
+
+ case 3<<8: // TRAPA(opcode & 0xff);
+ desc.regin[0] |= REGFLAG_R(15);
+ desc.regin[1] |= REGFLAG_VBR;
+ desc.regout[0] |= REGFLAG_R(15);
+ desc.cycles = 8;
+ desc.targetpc = BRANCH_TARGET_DYNAMIC;
+ desc.flags |= OPFLAG_READS_MEMORY | OPFLAG_IS_UNCONDITIONAL_BRANCH | OPFLAG_END_SEQUENCE;
+ return true;
+
+ case 4<<8: // MOVBLG(opcode & 0xff);
+ case 5<<8: // MOVWLG(opcode & 0xff);
+ case 6<<8: // MOVLLG(opcode & 0xff);
+ case 7<<8: // MOVA(opcode & 0xff);
+ desc.regout[0] |= REGFLAG_R(0);
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+
+ case 8<<8: // TSTI(opcode & 0xff);
+ desc.regin[0] |= REGFLAG_R(0);
+ desc.regin[1] |= REGFLAG_SR;
+ desc.regout[1] |= REGFLAG_SR;
+ return true;
+
+ case 9<<8: // ANDI(opcode & 0xff);
+ case 10<<8: // XORI(opcode & 0xff);
+ case 11<<8: // ORI(opcode & 0xff);
+ desc.regin[0] |= REGFLAG_R(0);
+ desc.regout[0] |= REGFLAG_R(0);
+ return true;
+
+ case 12<<8: // TSTM(opcode & 0xff);
+ case 13<<8: // ANDM(opcode & 0xff);
+ case 14<<8: // XORM(opcode & 0xff);
+ case 15<<8: // ORM(opcode & 0xff);
+ desc.regin[0] |= REGFLAG_R(0);
+ desc.regin[1] |= REGFLAG_SR | REGFLAG_GBR;
+ desc.regout[1] |= REGFLAG_SR;
+ desc.flags |= OPFLAG_READS_MEMORY;
+ return true;
+ }
+
+ return false;
+}
+#endif