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https://github.com/mirror/tinycc.git
synced 2024-12-26 03:50:07 +08:00
518 lines
14 KiB
C
518 lines
14 KiB
C
/*************************************************************/
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/*
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* RISCV64 assembler for TCC
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*
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*/
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#ifdef TARGET_DEFS_ONLY
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#define CONFIG_TCC_ASM
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#define NB_ASM_REGS 32
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ST_FUNC void g(int c);
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ST_FUNC void gen_le16(int c);
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ST_FUNC void gen_le32(int c);
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/*************************************************************/
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#else
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/*************************************************************/
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#define USING_GLOBALS
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#include "tcc.h"
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/* XXX: make it faster ? */
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ST_FUNC void g(int c)
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{
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int ind1;
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if (nocode_wanted)
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return;
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ind1 = ind + 1;
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if (ind1 > cur_text_section->data_allocated)
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section_realloc(cur_text_section, ind1);
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cur_text_section->data[ind] = c;
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ind = ind1;
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}
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ST_FUNC void gen_le16 (int i)
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{
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g(i);
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g(i>>8);
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}
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ST_FUNC void gen_le32 (int i)
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{
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gen_le16(i);
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gen_le16(i>>16);
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}
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ST_FUNC void gen_expr32(ExprValue *pe)
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{
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gen_le32(pe->v);
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}
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static void asm_emit_opcode(uint32_t opcode) {
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gen_le32(opcode);
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}
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static void asm_nullary_opcode(TCCState *s1, int token)
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{
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switch (token) {
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// Sync instructions
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case TOK_ASM_fence: // I
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asm_emit_opcode((0x3 << 2) | 3 | (0 << 12));
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return;
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case TOK_ASM_fence_i: // I
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asm_emit_opcode((0x3 << 2) | 3| (1 << 12));
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return;
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// System calls
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case TOK_ASM_scall: // I (pseudo)
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asm_emit_opcode((0x1C << 2) | 3 | (0 << 12));
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return;
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case TOK_ASM_sbreak: // I (pseudo)
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asm_emit_opcode((0x1C << 2) | 3 | (0 << 12) | (1 << 20));
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return;
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// Privileged Instructions
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case TOK_ASM_ecall:
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asm_emit_opcode((0x1C << 2) | 3 | (0 << 20));
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return;
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case TOK_ASM_ebreak:
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asm_emit_opcode((0x1C << 2) | 3 | (1 << 20));
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return;
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// Other
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case TOK_ASM_wfi:
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asm_emit_opcode((0x1C << 2) | 3 | (0x105 << 20));
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return;
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default:
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expect("nullary instruction");
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}
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}
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enum {
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OPT_REG,
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OPT_IM12S,
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OPT_IM32,
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};
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#define OP_REG (1 << OPT_REG)
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#define OP_IM32 (1 << OPT_IM32)
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#define OP_IM12S (1 << OPT_IM12S)
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typedef struct Operand {
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uint32_t type;
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union {
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uint8_t reg;
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uint16_t regset;
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ExprValue e;
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};
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} Operand;
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/* Parse a text containing operand and store the result in OP */
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static void parse_operand(TCCState *s1, Operand *op)
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{
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ExprValue e;
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int8_t reg;
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op->type = 0;
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if ((reg = asm_parse_regvar(tok)) != -1) {
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next(); // skip register name
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op->type = OP_REG;
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op->reg = (uint8_t) reg;
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return;
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} else if (tok == '$') {
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/* constant value */
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next(); // skip '#' or '$'
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}
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asm_expr(s1, &e);
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op->type = OP_IM32;
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op->e = e;
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if (!op->e.sym) {
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if ((int) op->e.v >= -2048 && (int) op->e.v < 2048)
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op->type = OP_IM12S;
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} else
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expect("operand");
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}
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#define ENCODE_RS1(register_index) ((register_index) << 15)
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#define ENCODE_RS2(register_index) ((register_index) << 20)
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#define ENCODE_RD(register_index) ((register_index) << 7)
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// Note: Those all map to CSR--so they are pseudo-instructions.
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static void asm_unary_opcode(TCCState *s1, int token)
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{
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uint32_t opcode = (0x1C << 2) | 3 | (2 << 12);
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Operand op;
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parse_operand(s1, &op);
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if (op.type != OP_REG) {
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expect("register");
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return;
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}
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opcode |= ENCODE_RD(op.reg);
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switch (token) {
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case TOK_ASM_rdcycle:
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asm_emit_opcode(opcode | (0xC00 << 20));
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return;
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case TOK_ASM_rdcycleh:
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asm_emit_opcode(opcode | (0xC80 << 20));
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return;
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case TOK_ASM_rdtime:
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asm_emit_opcode(opcode | (0xC01 << 20) | ENCODE_RD(op.reg));
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return;
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case TOK_ASM_rdtimeh:
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asm_emit_opcode(opcode | (0xC81 << 20) | ENCODE_RD(op.reg));
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return;
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case TOK_ASM_rdinstret:
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asm_emit_opcode(opcode | (0xC02 << 20) | ENCODE_RD(op.reg));
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return;
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case TOK_ASM_rdinstreth:
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asm_emit_opcode(opcode | (0xC82 << 20) | ENCODE_RD(op.reg));
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return;
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default:
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expect("unary instruction");
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}
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}
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static void asm_emit_u(int token, uint32_t opcode, const Operand* rd, const Operand* rs2)
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{
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if (rd->type != OP_REG) {
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tcc_error("'%s': Expected destination operand that is a register", get_tok_str(token, NULL));
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return;
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}
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if (rs2->type != OP_IM12S && rs2->type != OP_IM32) {
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tcc_error("'%s': Expected second source operand that is an immediate value", get_tok_str(token, NULL));
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return;
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} else if (rs2->e.v >= 0x100000) {
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tcc_error("'%s': Expected second source operand that is an immediate value between 0 and 0xfffff", get_tok_str(token, NULL));
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return;
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}
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/* U-type instruction:
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31...12 imm[31:12]
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11...7 rd
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6...0 opcode */
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gen_le32(opcode | ENCODE_RD(rd->reg) | (rs2->e.v << 12));
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}
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static void asm_binary_opcode(TCCState* s1, int token)
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{
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Operand ops[2];
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parse_operand(s1, &ops[0]);
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if (tok == ',')
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next();
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else
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expect("','");
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parse_operand(s1, &ops[1]);
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switch (token) {
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case TOK_ASM_lui:
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asm_emit_u(token, (0xD << 2) | 3, &ops[0], &ops[1]);
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return;
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case TOK_ASM_auipc:
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asm_emit_u(token, (0x05 << 2) | 3, &ops[0], &ops[1]);
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return;
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default:
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expect("binary instruction");
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}
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}
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/* caller: Add funct3, funct7 into opcode */
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static void asm_emit_r(int token, uint32_t opcode, const Operand* rd, const Operand* rs1, const Operand* rs2)
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{
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if (rd->type != OP_REG) {
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tcc_error("'%s': Expected destination operand that is a register", get_tok_str(token, NULL));
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return;
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}
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if (rs1->type != OP_REG) {
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tcc_error("'%s': Expected first source operand that is a register", get_tok_str(token, NULL));
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return;
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}
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if (rs2->type != OP_REG) {
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tcc_error("'%s': Expected second source operand that is a register or immediate", get_tok_str(token, NULL));
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return;
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}
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/* R-type instruction:
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31...25 funct7
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24...20 rs2
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19...15 rs1
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14...12 funct3
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11...7 rd
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6...0 opcode */
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gen_le32(opcode | ENCODE_RD(rd->reg) | ENCODE_RS1(rs1->reg) | ENCODE_RS2(rs2->reg));
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}
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/* caller: Add funct3 into opcode */
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static void asm_emit_i(int token, uint32_t opcode, const Operand* rd, const Operand* rs1, const Operand* rs2)
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{
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if (rd->type != OP_REG) {
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tcc_error("'%s': Expected destination operand that is a register", get_tok_str(token, NULL));
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return;
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}
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if (rs1->type != OP_REG) {
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tcc_error("'%s': Expected first source operand that is a register", get_tok_str(token, NULL));
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return;
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}
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if (rs2->type != OP_IM12S) {
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tcc_error("'%s': Expected second source operand that is an immediate value between 0 and 4095", get_tok_str(token, NULL));
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return;
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}
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/* I-type instruction:
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31...20 imm[11:0]
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19...15 rs1
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14...12 funct3
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11...7 rd
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6...0 opcode */
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gen_le32(opcode | ENCODE_RD(rd->reg) | ENCODE_RS1(rs1->reg) | (rs2->e.v << 20));
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}
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static void asm_shift_opcode(TCCState *s1, int token)
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{
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Operand ops[3];
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parse_operand(s1, &ops[0]);
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if (tok == ',')
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next();
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else
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expect("','");
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parse_operand(s1, &ops[1]);
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if (tok == ',')
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next();
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else
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expect("','");
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parse_operand(s1, &ops[2]);
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switch (token) {
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case TOK_ASM_sll:
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asm_emit_r(token, (0xC << 2) | 3 | (1 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_slli:
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asm_emit_i(token, (4 << 2) | 3 | (1 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_srl:
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asm_emit_r(token, (0xC << 2) | 3 | (4 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_srli:
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asm_emit_i(token, (0x4 << 2) | 3 | (5 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sra:
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asm_emit_r(token, (0xC << 2) | 3 | (5 << 12) | (32 << 25), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_srai:
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asm_emit_i(token, (0x4 << 2) | 3 | (5 << 12) | (16 << 26), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sllw:
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asm_emit_r(token, (0xE << 2) | 3 | (1 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_slliw:
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asm_emit_i(token, (6 << 2) | 3 | (1 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_srlw:
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asm_emit_r(token, (0xE << 2) | 3 | (5 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_srliw:
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asm_emit_i(token, (0x6 << 2) | 3 | (5 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sraw:
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asm_emit_r(token, (0xE << 2) | 3 | (5 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sraiw:
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asm_emit_i(token, (0x6 << 2) | 3 | (5 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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default:
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expect("shift instruction");
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}
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}
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static void asm_data_processing_opcode(TCCState* s1, int token)
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{
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Operand ops[3];
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parse_operand(s1, &ops[0]);
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if (tok == ',')
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next();
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else
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expect("','");
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parse_operand(s1, &ops[1]);
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if (tok == ',')
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next();
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else
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expect("','");
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parse_operand(s1, &ops[2]);
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switch (token) {
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// Arithmetic (RD,RS1,(RS2|IMM)); R-format, I-format or U-format
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case TOK_ASM_add:
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asm_emit_r(token, (0xC << 2) | 3, &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_addi:
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asm_emit_i(token, (4 << 2) | 3, &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sub:
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asm_emit_r(token, (0xC << 2) | 3 | (32 << 25), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_addw:
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asm_emit_r(token, (0xE << 2) | 3 | (0 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_addiw: // 64 bit
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asm_emit_i(token, (0x6 << 2) | 3 | (0 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_subw:
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asm_emit_r(token, (0xE << 2) | 3 | (0 << 12) | (32 << 25), &ops[0], &ops[1], &ops[2]);
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return;
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// Logical (RD,RS1,(RS2|IMM)); R-format or I-format
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case TOK_ASM_xor:
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asm_emit_r(token, (0xC << 2) | 3 | (4 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_xori:
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asm_emit_i(token, (0x4 << 2) | 3 | (4 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_or:
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asm_emit_r(token, (0xC << 2) | 3 | (6 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_ori:
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asm_emit_i(token, (0x4 << 2) | 3 | (6 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_and:
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asm_emit_r(token, (0xC << 2) | 3 | (7 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_andi:
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asm_emit_i(token, (0x4 << 2) | 3 | (7 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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// Compare (RD,RS1,(RS2|IMM)); R-format or I-format
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case TOK_ASM_slt:
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asm_emit_r(token, (0xC << 2) | 3 | (2 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_slti:
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asm_emit_i(token, (0x4 << 2) | 3 | (2 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sltu:
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asm_emit_r(token, (0xC << 2) | 3 | (3 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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case TOK_ASM_sltiu:
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asm_emit_i(token, (0x4 << 2) | 3 | (3 << 12), &ops[0], &ops[1], &ops[2]);
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return;
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default:
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expect("known data processing instruction");
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}
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}
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ST_FUNC void asm_opcode(TCCState *s1, int token)
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{
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switch (token) {
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case TOK_ASM_fence:
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case TOK_ASM_fence_i:
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case TOK_ASM_scall:
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case TOK_ASM_sbreak:
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case TOK_ASM_ecall:
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case TOK_ASM_ebreak:
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case TOK_ASM_mrts:
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case TOK_ASM_mrth:
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case TOK_ASM_hrts:
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case TOK_ASM_wfi:
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asm_nullary_opcode(s1, token);
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return;
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case TOK_ASM_rdcycle:
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case TOK_ASM_rdcycleh:
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case TOK_ASM_rdtime:
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case TOK_ASM_rdtimeh:
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case TOK_ASM_rdinstret:
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case TOK_ASM_rdinstreth:
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asm_unary_opcode(s1, token);
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return;
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case TOK_ASM_lui:
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case TOK_ASM_auipc:
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asm_binary_opcode(s1, token);
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return;
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case TOK_ASM_sll:
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case TOK_ASM_slli:
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case TOK_ASM_srl:
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case TOK_ASM_srli:
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case TOK_ASM_sra:
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case TOK_ASM_srai:
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case TOK_ASM_sllw:
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case TOK_ASM_slld:
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case TOK_ASM_slliw:
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case TOK_ASM_sllid:
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case TOK_ASM_srlw:
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case TOK_ASM_srld:
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case TOK_ASM_srliw:
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case TOK_ASM_srlid:
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case TOK_ASM_sraw:
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case TOK_ASM_srad:
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case TOK_ASM_sraiw:
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case TOK_ASM_sraid:
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asm_shift_opcode(s1, token);
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return;
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case TOK_ASM_add:
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case TOK_ASM_addi:
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case TOK_ASM_sub:
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case TOK_ASM_addw:
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case TOK_ASM_addd:
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case TOK_ASM_addiw:
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case TOK_ASM_addid:
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case TOK_ASM_subw:
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case TOK_ASM_subd:
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case TOK_ASM_xor:
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case TOK_ASM_xori:
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case TOK_ASM_or:
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case TOK_ASM_ori:
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case TOK_ASM_and:
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case TOK_ASM_andi:
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case TOK_ASM_slt:
|
|
case TOK_ASM_slti:
|
|
case TOK_ASM_sltu:
|
|
case TOK_ASM_sltiu:
|
|
asm_data_processing_opcode(s1, token);
|
|
|
|
default:
|
|
expect("known instruction");
|
|
}
|
|
}
|
|
|
|
ST_FUNC void subst_asm_operand(CString *add_str, SValue *sv, int modifier)
|
|
{
|
|
tcc_error("RISCV64 asm not implemented.");
|
|
}
|
|
|
|
/* generate prolog and epilog code for asm statement */
|
|
ST_FUNC void asm_gen_code(ASMOperand *operands, int nb_operands,
|
|
int nb_outputs, int is_output,
|
|
uint8_t *clobber_regs,
|
|
int out_reg)
|
|
{
|
|
}
|
|
|
|
ST_FUNC void asm_compute_constraints(ASMOperand *operands,
|
|
int nb_operands, int nb_outputs,
|
|
const uint8_t *clobber_regs,
|
|
int *pout_reg)
|
|
{
|
|
}
|
|
|
|
ST_FUNC void asm_clobber(uint8_t *clobber_regs, const char *str)
|
|
{
|
|
tcc_error("RISCV64 asm not implemented.");
|
|
}
|
|
|
|
ST_FUNC int asm_parse_regvar (int t)
|
|
{
|
|
tcc_error("RISCV64 asm not implemented.");
|
|
return -1;
|
|
}
|
|
|
|
/*************************************************************/
|
|
#endif /* ndef TARGET_DEFS_ONLY */
|