zba/src/core/cpu/thumb/data_processing.zig

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const std = @import("std");
const Bus = @import("../../Bus.zig");
const Arm7tdmi = @import("../../cpu.zig").Arm7tdmi;
const InstrFn = @import("../../cpu.zig").thumb.InstrFn;
const shifter = @import("../barrel_shifter.zig");
const add = @import("../arm/data_processing.zig").add;
const sub = @import("../arm/data_processing.zig").sub;
const cmp = @import("../arm/data_processing.zig").cmp;
const setLogicOpFlags = @import("../arm/data_processing.zig").setLogicOpFlags;
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const log = std.log.scoped(.Thumb1);
pub fn fmt1(comptime op: u2, comptime offset: u5) InstrFn {
return struct {
fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
const rs = opcode >> 3 & 0x7;
const rd = opcode & 0x7;
const result = switch (op) {
0b00 => blk: {
// LSL
if (offset == 0) {
break :blk cpu.r[rs];
} else {
break :blk shifter.logicalLeft(true, &cpu.cpsr, cpu.r[rs], offset);
}
},
0b01 => blk: {
// LSR
if (offset == 0) {
cpu.cpsr.c.write(cpu.r[rs] >> 31 & 1 == 1);
break :blk @as(u32, 0);
} else {
break :blk shifter.logicalRight(true, &cpu.cpsr, cpu.r[rs], offset);
}
},
0b10 => blk: {
// ASR
if (offset == 0) {
cpu.cpsr.c.write(cpu.r[rs] >> 31 & 1 == 1);
break :blk @bitCast(u32, @bitCast(i32, cpu.r[rs]) >> 31);
} else {
break :blk shifter.arithmeticRight(true, &cpu.cpsr, cpu.r[rs], offset);
}
},
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else => cpu.panic("[CPU/THUMB.1] 0b{b:0>2} is not a valid op", .{op}),
};
// Equivalent to an ARM MOVS
cpu.r[rd] = result;
setLogicOpFlags(true, cpu, result);
}
}.inner;
}
pub fn fmt5(comptime op: u2, comptime h1: u1, comptime h2: u1) InstrFn {
return struct {
fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
const src_idx = @as(u4, h2) << 3 | (opcode >> 3 & 0x7);
const dst_idx = @as(u4, h1) << 3 | (opcode & 0x7);
const src = if (src_idx == 0xF) (cpu.r[src_idx] + 2) & 0xFFFF_FFFE else cpu.r[src_idx];
const dst = if (dst_idx == 0xF) (cpu.r[dst_idx] + 2) & 0xFFFF_FFFE else cpu.r[dst_idx];
switch (op) {
0b00 => {
// ADD
const sum = add(false, cpu, dst, src);
cpu.r[dst_idx] = if (dst_idx == 0xF) sum & 0xFFFF_FFFE else sum;
},
0b01 => cmp(cpu, dst, src), // CMP
0b10 => {
// MOV
cpu.r[dst_idx] = if (dst_idx == 0xF) src & 0xFFFF_FFFE else src;
},
0b11 => {
// BX
cpu.cpsr.t.write(src & 1 == 1);
cpu.r[15] = src & 0xFFFF_FFFE;
},
}
}
}.inner;
}
pub fn fmt2(comptime I: bool, is_sub: bool, rn: u3) InstrFn {
return struct {
fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
const rs = opcode >> 3 & 0x7;
const rd = @truncate(u3, opcode);
if (is_sub) {
// SUB
cpu.r[rd] = if (I) blk: {
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break :blk sub(true, cpu, cpu.r[rs], rn);
} else blk: {
break :blk sub(true, cpu, cpu.r[rs], cpu.r[rn]);
};
} else {
// ADD
cpu.r[rd] = if (I) blk: {
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break :blk add(true, cpu, cpu.r[rs], rn);
} else blk: {
break :blk add(true, cpu, cpu.r[rs], cpu.r[rn]);
};
}
}
}.inner;
}
pub fn fmt3(comptime op: u2, comptime rd: u3) InstrFn {
return struct {
fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
const offset = @truncate(u8, opcode);
switch (op) {
0b00 => {
// MOV
cpu.r[rd] = offset;
setLogicOpFlags(true, cpu, offset);
},
0b01 => cmp(cpu, cpu.r[rd], offset), // CMP
0b10 => cpu.r[rd] = add(true, cpu, cpu.r[rd], offset), // ADD
0b11 => cpu.r[rd] = sub(true, cpu, cpu.r[rd], offset), // SUB
}
}
}.inner;
}
pub fn fmt12(comptime isSP: bool, comptime rd: u3) InstrFn {
return struct {
fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
// ADD
const left = if (isSP) cpu.r[13] else (cpu.r[15] + 2) & 0xFFFF_FFFD;
const right = (opcode & 0xFF) << 2;
const result = left + right;
cpu.r[rd] = result;
}
}.inner;
}
pub fn fmt13(comptime S: bool) InstrFn {
return struct {
fn inner(cpu: *Arm7tdmi, _: *Bus, opcode: u16) void {
// ADD
const offset = (opcode & 0x7F) << 2;
cpu.r[13] = if (S) cpu.r[13] - offset else cpu.r[13] + offset;
}
}.inner;
}