Mercurial > repos > blastem
view ztestgen.c @ 572:0f32f52fc98e
Make some small changes in trans so that it is more likely to produce the same output as mustrans when given misbehaving programs. Add lea to testcases.txt. Improve the output of comparetest.py so that known issues can easily be separated from new ones.
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Mon, 03 Mar 2014 21:08:43 -0800 |
| parents | b7b7a1cab44a |
| children | 33ff0171301b |
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/* Copyright 2013 Michael Pavone This file is part of BlastEm. BlastEm is free software distributed under the terms of the GNU General Public License version 3 or greater. See COPYING for full license text. */ #include "z80inst.h" #include <stdlib.h> #include <string.h> #include <stdint.h> #include <stdio.h> #include <sys/stat.h> #include <sys/types.h> #include <errno.h> extern z80inst z80_tbl_a[256]; extern z80inst z80_tbl_extd[0xC0-0x40]; extern z80inst z80_tbl_bit[256]; extern z80inst z80_tbl_ix[256]; extern z80inst z80_tbl_iy[256]; extern z80inst z80_tbl_ix_bit[256]; extern z80inst z80_tbl_iy_bit[256]; extern char *z80_mnemonics[Z80_OTDR+1]; extern char * z80_regs[Z80_USE_IMMED]; #define PRE_IX 0xDD #define PRE_IY 0xFD #define LD_IR16 0x01 #define LD_IR8 0x06 #define LD_RR8 0x40 #define AND_R 0xA0 #define PUSH 0xC5 #define POP 0xC1 uint8_t * ld_ir16(uint8_t * dst, uint8_t reg, uint16_t val) { if (reg == Z80_IX) { *(dst++) = PRE_IX; return ld_ir16(dst, Z80_HL, val); } else if(reg == Z80_IY) { *(dst++) = PRE_IY; return ld_ir16(dst, Z80_HL, val); } else { *(dst++) = LD_IR16 | ((reg - Z80_BC) << 4); *(dst++) = val & 0xFF; *(dst++) = val >> 8; return dst; } } uint8_t * ld_ir8(uint8_t * dst, uint8_t reg, uint8_t val) { if (reg <= Z80_H) { reg = (reg - Z80_C) ^ 1; } else { reg = 0x7; } *(dst++) = LD_IR8 | (reg << 3); *(dst++) = val; return dst; } uint8_t * ld_rr8(uint8_t * dst, uint8_t src, uint8_t dstr) { if (src <= Z80_H) { src = (src - Z80_C) ^ 1; } else { src = 0x7; } if (dstr <= Z80_H) { dstr = (dstr - Z80_C) ^ 1; } else { dstr = 0x7; } *(dst++) = LD_RR8 | (dstr << 3) | src; return dst; } uint8_t * ld_amem(uint8_t * dst, uint16_t address) { *(dst++) = 0x32; *(dst++) = address & 0xFF; *(dst++) = address >> 8; return dst; } uint8_t * ld_mema(uint8_t * dst, uint16_t address) { *(dst++) = 0x3A; *(dst++) = address & 0xFF; *(dst++) = address >> 8; return dst; } uint8_t * push(uint8_t * dst, uint8_t reg) { if (reg == Z80_IX) { *(dst++) = PRE_IX; return push(dst, Z80_HL); } else if(reg == Z80_IY) { *(dst++) = PRE_IY; return push(dst, Z80_HL); } else { if (reg == Z80_AF) { reg--; } *(dst++) = PUSH | ((reg - Z80_BC) << 4); return dst; } } uint8_t * pop(uint8_t * dst, uint8_t reg) { if (reg == Z80_IX) { *(dst++) = PRE_IX; return pop(dst, Z80_HL); } else if(reg == Z80_IY) { *(dst++) = PRE_IY; return pop(dst, Z80_HL); } else { if (reg == Z80_AF) { reg--; } *(dst++) = POP | ((reg - Z80_BC) << 4); return dst; } } uint8_t * and_r(uint8_t * dst, uint8_t reg) { if (reg == Z80_IXH || reg == Z80_IXL) { *(dst++) = PRE_IX; return and_r(dst, reg - (Z80_IXL - Z80_L)); } else if(reg == Z80_IYH || reg == Z80_IYL) { *(dst++) = PRE_IY; return and_r(dst, reg - (Z80_IYL - Z80_L)); } else { if (reg == Z80_A) { reg = 7; } else { reg = (reg - Z80_C) ^ 1; } *(dst++) = AND_R | reg; return dst; } } void z80_gen_test(z80inst * inst, uint8_t *instbuf, uint8_t instlen) { z80inst copy; uint16_t reg_values[Z80_UNUSED]; uint8_t reg_usage[Z80_UNUSED]; memset(reg_values, 0, sizeof(reg_values)); memset(reg_usage, 0, sizeof(reg_usage)); uint8_t addr_mode = inst->addr_mode & 0x1F; uint8_t word_sized = ((inst->reg != Z80_USE_IMMED && inst->reg != Z80_UNUSED && inst->reg >= Z80_BC) || (addr_mode == Z80_REG && inst->ea_reg >= Z80_BC)) ? 1 : 0; if (inst->reg == Z80_USE_IMMED || addr_mode == Z80_IMMED || addr_mode == Z80_IMMED_INDIRECT || addr_mode == Z80_IX_DISPLACE || addr_mode == Z80_IY_DISPLACE) { memcpy(©, inst, sizeof(copy)); inst = © if ((inst->reg == Z80_USE_IMMED && inst->op != Z80_BIT && inst->op != Z80_RES && inst->op != Z80_SET) || (addr_mode == Z80_IMMED && inst->op != Z80_IM)) { copy.immed = rand() % (word_sized ? 65536 : 256); } if (addr_mode == Z80_IX_DISPLACE || addr_mode == Z80_IY_DISPLACE) { copy.ea_reg = rand() % 256; } if (addr_mode == Z80_IMMED_INDIRECT) { copy.immed = 0x1000 + (rand() % 256 - 128); } } uint8_t is_mem = 0; uint16_t address; int16_t offset; switch(addr_mode) { case Z80_REG: reg_usage[inst->ea_reg] = 1; if (word_sized) { reg_values[inst->ea_reg] = rand() % 65536; reg_values[z80_high_reg(inst->ea_reg)] = reg_values[inst->ea_reg] >> 8; reg_usage[z80_high_reg(inst->ea_reg)] = 1; reg_values[z80_low_reg(inst->ea_reg)] = reg_values[inst->ea_reg] & 0xFF; reg_usage[z80_low_reg(inst->ea_reg)] = 1; } else { reg_values[inst->ea_reg] = rand() % 256; uint8_t word_reg = z80_word_reg(inst->ea_reg); if (word_reg != Z80_UNUSED) { reg_usage[word_reg] = 1; reg_values[word_reg] = (reg_values[z80_high_reg(word_reg)] << 8) | (reg_values[z80_low_reg(word_reg)] & 0xFF); } } break; case Z80_REG_INDIRECT: is_mem = 1; reg_values[inst->ea_reg] = 0x1000 + (rand() % 256 - 128); reg_usage[inst->ea_reg] = 1; address = reg_values[inst->ea_reg]; reg_usage[z80_high_reg(inst->ea_reg)] = 1; reg_values[z80_high_reg(inst->ea_reg)] = reg_values[inst->ea_reg] >> 8; reg_usage[z80_low_reg(inst->ea_reg)] = 1; reg_values[z80_low_reg(inst->ea_reg)] = reg_values[inst->ea_reg] & 0xFF; break; case Z80_IMMED_INDIRECT: is_mem = 1; address = inst->immed; break; case Z80_IX_DISPLACE: reg_values[Z80_IX] = 0x1000; reg_usage[Z80_IX] = 1; reg_values[Z80_IXH] = 0x10; reg_usage[Z80_IXH] = 1; reg_values[Z80_IXL] = 0; reg_usage[Z80_IXL] = 1; is_mem = 1; offset = inst->ea_reg; if (offset > 0x7F) { offset -= 256; } address = 0x1000 + offset; break; case Z80_IY_DISPLACE: reg_values[Z80_IY] = 0x1000; reg_usage[Z80_IY] = 1; reg_values[Z80_IYH] = 0x10; reg_usage[Z80_IYH] = 1; reg_values[Z80_IYL] = 0; reg_usage[Z80_IYL] = 1; is_mem = 1; offset = inst->ea_reg; if (offset > 0x7F) { offset -= 256; } address = 0x1000 + offset; break; } if (inst->reg != Z80_UNUSED && inst->reg != Z80_USE_IMMED) { if (word_sized) { reg_values[inst->reg] = rand() % 65536; reg_usage[z80_high_reg(inst->reg)] = 1; reg_values[z80_high_reg(inst->reg)] = reg_values[inst->reg] >> 8; reg_usage[z80_low_reg(inst->reg)] = 1; reg_values[z80_low_reg(inst->reg)] = reg_values[inst->reg] & 0xFF; } else { if (!reg_usage[inst->reg]) { reg_values[inst->reg] = rand() % 255; uint8_t word_reg = z80_word_reg(inst->reg); if (word_reg != Z80_UNUSED) { reg_usage[word_reg] = 1; reg_values[word_reg] = (reg_values[z80_high_reg(word_reg)] << 8) | (reg_values[z80_low_reg(word_reg)] & 0xFF); } } } reg_usage[inst->reg] = 1; } puts("--------------"); for (uint8_t reg = 0; reg < Z80_UNUSED; reg++) { if (reg_values[reg]) { printf("%s: %X\n", z80_regs[reg], reg_values[reg]); } } char disbuf[80]; z80_disasm(inst, disbuf, 0); puts(disbuf); char pathbuf[128]; sprintf(pathbuf, "ztests/%s", z80_mnemonics[inst->op]); if (mkdir(pathbuf, 0777) != 0) { if (errno != EEXIST) { fprintf(stderr, "Failed to create directory %s\n", disbuf); exit(1); } } uint8_t prog[200]; uint8_t *cur = prog; uint8_t mem_val; //disable interrupts *(cur++) = 0xF3; //setup SP cur = ld_ir16(cur, Z80_SP, 0x2000); for (int i = 0; i < 2; i ++) { //setup memory if (is_mem) { mem_val = rand() % 256; cur = ld_ir8(cur, Z80_A, mem_val); cur = ld_amem(cur, address); } //setup AF cur = ld_ir16(cur, Z80_BC, reg_values[Z80_A] << 8 | (i ? 0xFF : 0)); cur = push(cur, Z80_BC); cur = pop(cur, Z80_AF); //setup other regs for (uint8_t reg = Z80_BC; reg <= Z80_IY; reg++) { if (reg != Z80_AF && reg != Z80_SP) { cur = ld_ir16(cur, reg, reg_values[reg]); } } //copy instruction if (instlen == 3) { memcpy(cur, instbuf, 2); cur += 2; } else { memcpy(cur, instbuf, instlen); cur += instlen; } //immed/displacement byte(s) if (addr_mode == Z80_IX_DISPLACE || addr_mode == Z80_IY_DISPLACE) { *(cur++) = inst->ea_reg; } else if (addr_mode == Z80_IMMED & inst->op != Z80_IM) { *(cur++) = inst->immed & 0xFF; if (word_sized) { *(cur++) = inst->immed >> 8; } } else if (addr_mode == Z80_IMMED_INDIRECT) { *(cur++) = inst->immed & 0xFF; *(cur++) = inst->immed >> 8; } if (inst->reg == Z80_USE_IMMED && inst->op != Z80_BIT && inst->op != Z80_RES && inst->op != Z80_SET) { *(cur++) = inst->immed & 0xFF; } if (instlen == 3) { *(cur++) = instbuf[2]; } if (!i) { //Save AF from first run cur = push(cur, Z80_AF); if (is_mem) { //Save memory location from frist run cur = ld_mema(cur, address); cur = push(cur, Z80_AF); } } else { //Pop AF from first run for final result for (int reg = Z80_BC; reg <= Z80_IY; reg++) { if (reg != Z80_AF && !reg_usage[reg]) { cur = pop(cur, reg); cur = push(cur, Z80_AF); cur = ld_ir8(cur, Z80_A, 0xC7); cur = and_r(cur, z80_low_reg(reg)); cur = ld_rr8(cur, Z80_A, z80_low_reg(reg)); cur = pop(cur, Z80_AF); reg_usage[reg] = 1; reg_usage[z80_low_reg(reg)] = 1; break; } } if (is_mem) { //Pop memory location from frist run for (int reg = Z80_BC; reg <= Z80_IY; reg++) { if (reg != Z80_AF && !reg_usage[reg]) { cur = pop(cur, reg); cur = push(cur, Z80_AF); cur = ld_mema(cur, address); cur = ld_rr8(cur, Z80_A, z80_low_reg(reg)); cur = pop(cur, Z80_AF); reg_usage[reg] = 1; reg_usage[z80_low_reg(reg)] = 1; break; } } } } } for (char * cur = disbuf; *cur != 0; cur++) { if (*cur == ',' || *cur == ' ') { *cur = '_'; } } //save memory result if (is_mem) { if (reg_usage[Z80_A]) { cur = push(cur, Z80_AF); } cur = ld_mema(cur, address); if (reg_usage[Z80_A]) { for (int reg = 0; reg < Z80_I; reg++) { if (!reg_usage[reg]) { cur = ld_rr8(cur, Z80_A, reg); break; } } cur = pop(cur, Z80_AF); } } //halt *(cur++) = 0x76; sprintf(pathbuf + strlen(pathbuf), "/%s.bin", disbuf); FILE * progfile = fopen(pathbuf, "wb"); fwrite(prog, 1, cur - prog, progfile); fclose(progfile); } uint8_t should_skip(z80inst * inst) { return inst->op >= Z80_JP || (inst->op >= Z80_LDI && inst->op <= Z80_CPDR) || inst->op == Z80_HALT || inst->op == Z80_DAA || inst->op == Z80_RLD || inst->op == Z80_RRD || inst->op == Z80_NOP || inst->op == Z80_DI || inst->op == Z80_EI; } void z80_gen_all() { uint8_t inst[3]; for (int op = 0; op < 256; op++) { inst[0] = op; if (op == 0xCB) { for (int subop = 0; subop < 256; subop++) { if (!should_skip(z80_tbl_bit + subop)) { inst[1] = subop; z80_gen_test(z80_tbl_bit + subop, inst, 2); } } } else if(op == 0xDD) { for (int ixop = 0; ixop < 256; ixop++) { inst[1] = ixop; if (ixop == 0xCB) { for (int subop = 0; subop < 256; subop++) { if (!should_skip(z80_tbl_ix_bit + subop)) { inst[2] = subop; z80_gen_test(z80_tbl_ix_bit + subop, inst, 3); } } } else { if (!should_skip(z80_tbl_ix + ixop)) { z80_gen_test(z80_tbl_ix + ixop, inst, 2); } } } } else if(op == 0xED) { for (int subop = 0; subop < sizeof(z80_tbl_extd)/sizeof(z80inst); subop++) { if (!should_skip(z80_tbl_extd + subop)) { inst[1] = subop + 0x40; z80_gen_test(z80_tbl_extd + subop, inst, 2); } } } else if(op == 0xFD) { for (int iyop = 0; iyop < 256; iyop++) { inst[1] = iyop; if (iyop == 0xCB) { for (int subop = 0; subop < 256; subop++) { if (!should_skip(z80_tbl_iy_bit + subop)) { inst[2] = subop; z80_gen_test(z80_tbl_iy_bit + subop, inst, 3); } } } else { if (!should_skip(z80_tbl_iy + iyop)) { z80_gen_test(z80_tbl_iy + iyop, inst, 2); } } } } else { if (!should_skip(z80_tbl_a + op)) { z80_gen_test(z80_tbl_a + op, inst, 1); } } } } int main(int argc, char ** argv) { z80_gen_all(); return 0; }