const std = @import("std"); const arm = @import("../cpu.zig"); const Arm7tdmi = arm.Arm7tdmi; const CPSR = arm.CPSR; pub inline fn exec(comptime S: bool, cpu: *Arm7tdmi, opcode: u32) u32 { var shift_amt: u8 = undefined; if (opcode >> 4 & 1 == 1) { shift_amt = @truncate(u8, cpu.r[opcode >> 8 & 0xF]); } else { shift_amt = @truncate(u8, opcode >> 7 & 0x1F); } const rm = cpu.r[opcode & 0xF]; if (S) { return switch (@truncate(u2, opcode >> 5)) { 0b00 => logical_left(&cpu.cpsr, rm, shift_amt), 0b01 => logical_right(&cpu.cpsr, rm, shift_amt), 0b10 => arithmetic_right(&cpu.cpsr, rm, shift_amt), 0b11 => rotate_right(&cpu.cpsr, rm, shift_amt), }; } else { var dummy = CPSR{ .raw = 0x0000_0000 }; return switch (@truncate(u2, opcode >> 5)) { 0b00 => logical_left(&dummy, rm, shift_amt), 0b01 => logical_right(&dummy, rm, shift_amt), 0b10 => arithmetic_right(&dummy, rm, shift_amt), 0b11 => rotate_right(&dummy, rm, shift_amt), }; } } pub inline fn logical_left(cpsr: *CPSR, rm: u32, shift_byte: u8) u32 { const shift_amt = @truncate(u5, shift_byte); const bit_count: u8 = @typeInfo(u32).Int.bits; var result: u32 = 0x0000_0000; if (shift_byte < bit_count) { // We can perform a well-defined shift here // FIXME: We assume cpu.r[rs] == 0 and imm_shift == 0 are equivalent if (shift_amt != 0) { const carry_bit = @truncate(u5, bit_count - shift_amt); cpsr.c.write(rm >> carry_bit & 1 == 1); } result = rm << shift_amt; } else if (shift_byte == bit_count) { // Shifted all bits out, carry bit is bit 0 of rm cpsr.c.write(rm & 1 == 1); } else { // Shifted all bits out, carry bit has also been shifted out cpsr.c.write(false); } return result; } pub inline fn logical_right(cpsr: *CPSR, rm: u32, shift_byte: u8) u32 { const shift_amt = @truncate(u5, shift_byte); const bit_count: u8 = @typeInfo(u32).Int.bits; var result: u32 = 0x0000_0000; if (shift_byte == 0 or shift_byte == bit_count) { // Actualy LSR #32 cpsr.c.write(rm >> 31 & 1 == 1); } else if (shift_byte < bit_count) { // We can perform a well-defined shift const carry_bit = shift_amt - 1; cpsr.c.write(rm >> carry_bit & 1 == 1); result = rm >> shift_amt; } else { // All bits have been shifted out, including carry bit cpsr.c.write(false); } return result; } pub fn arithmetic_right(_: *CPSR, _: u32, _: u8) u32 { // @bitCast(u32, @bitCast(i32, r_val) >> @truncate(u5, amount)) std.debug.panic("[BarrelShifter] implement arithmetic shift right", .{}); } pub fn rotate_right(_: *CPSR, _: u32, _: u8) u32 { // std.math.rotr(u32, r_val, amount) std.debug.panic("[BarrelShifter] implement rotate right", .{}); }