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const std = @import("std");
const jv = @import("../jv.zig");
const Instr = @import("./compile.zig").Instr;
pub const ExecuteError = error{
Unimplemented,
InvalidType,
InternalError,
};
const SaveableStack = @import("./saveable_stack.zig").SaveableStack;
const ValueStack = struct {
const Self = @This();
const Stack = SaveableStack(jv.Value);
stack: Stack,
pub fn init(allocator: std.mem.Allocator) !Self {
return .{
.stack = try Stack.init(allocator),
};
}
pub fn deinit(self: *Self) void {
self.stack.deinit();
}
pub fn push(self: *Self, value: jv.Value) !void {
try self.stack.push(value);
}
pub fn pop(self: *Self) jv.Value {
return self.stack.pop();
}
pub fn popInteger(self: *Self) ExecuteError!i64 {
const value = self.pop();
return switch (value) {
.integer => |i| i,
else => error.InvalidType,
};
}
pub fn popNumber(self: *Self) ExecuteError!f64 {
const value = self.pop();
return switch (value) {
.integer => |i| @floatFromInt(i),
.float => |f| f,
else => error.InvalidType,
};
}
pub fn popString(self: *Self) ExecuteError![]const u8 {
const value = self.pop();
return switch (value) {
.string => |s| s,
else => error.InvalidType,
};
}
pub fn popArray(self: *Self) ExecuteError!jv.Array {
const value = self.pop();
return switch (value) {
.array => |a| a,
else => error.InvalidType,
};
}
pub fn popObject(self: *Self) ExecuteError!jv.Object {
const value = self.pop();
return switch (value) {
.object => |o| o,
else => error.InvalidType,
};
}
pub fn dup(self: *Self) !void {
const top = self.stack.top().*;
try self.push(top);
}
pub fn swap(self: *Self) !void {
std.debug.assert(self.ensureSize(2));
const a = self.pop();
const b = self.pop();
try self.push(a);
try self.push(b);
}
pub fn save(self: *Self) !void {
try self.stack.save();
}
pub fn restore(self: *Self) void {
self.stack.restore();
}
pub fn ensureSize(self: *Self, n: usize) bool {
return self.stack.ensureSize(n);
}
};
pub fn execute(allocator: std.mem.Allocator, instrs: []const Instr, input: jv.Value) !jv.Value {
var value_stack = try ValueStack.init(allocator);
defer value_stack.deinit();
try value_stack.push(input);
const len = instrs.len;
var pc: usize = 0;
while (pc < len) {
const cur = instrs[pc];
switch (cur) {
.nop => {},
.subexp_begin => try value_stack.dup(),
.subexp_end => try value_stack.swap(),
.array_index => {
std.debug.assert(value_stack.ensureSize(2));
const array = try value_stack.popArray();
const index: usize = @intCast(try value_stack.popInteger());
const result = if (index < array.items.len) array.items[index] else .null;
try value_stack.push(result);
},
.add => {
std.debug.assert(value_stack.ensureSize(3));
_ = value_stack.pop();
const lhs = try value_stack.popInteger();
const rhs = try value_stack.popInteger();
const result = lhs + rhs;
try value_stack.push(.{ .integer = result });
},
.object_key => |key| {
std.debug.assert(value_stack.ensureSize(1));
const obj = try value_stack.popObject();
const result = obj.get(key) orelse .null;
try value_stack.push(result);
},
.literal => |value| {
std.debug.assert(value_stack.ensureSize(1));
_ = value_stack.pop();
try value_stack.push(value.*);
},
}
pc += 1;
}
return value_stack.pop();
}
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