// // YamahaCommands.hpp // Clock Signal // // Created by Thomas Harte on 26/01/2023. // Copyright © 2023 Thomas Harte. All rights reserved. // #ifndef YamahaCommands_hpp #define YamahaCommands_hpp #include "AccessEnums.hpp" namespace TI { namespace TMS { // MARK: - Generics. struct Vector { int v[2]{}; template void set(uint8_t value) { constexpr uint8_t mask = high ? (offset ? 0x3 : 0x1) : 0xff; constexpr int shift = high ? 8 : 0; v[offset] = (v[offset] & ~(mask << shift)) | (value << shift); } template void add(int amount) { v[offset] += amount; if constexpr (offset == 1) { v[offset] &= 0x3ff; } else { v[offset] &= 0x1ff; } } Vector & operator += (const Vector &rhs) { add<0>(rhs.v[0]); add<1>(rhs.v[1]); return *this; } }; struct CommandContext { Vector source; Vector destination; Vector size; uint8_t arguments = 0; /// Colour as written by the CPU. uint8_t colour = 0; /// The low four bits of the CPU-written colour, repeated twice. uint8_t colour4pp = 0; /// The low two bits of the CPU-written colour, repeated four times. uint8_t colour2pp = 0; enum class LogicalOperation { Copy = 0b0000, And = 0b0001, Or = 0b0010, Xor = 0b0011, Not = 0b0100, ConditionalCopy = 0b1000, ConditionalAnd = 0b1001, ConditionalOr = 0b1010, ConditionalXor = 0b1011, ConditionalNot = 0b1100, }; LogicalOperation pixel_operation; }; struct Command { // In net: // // This command is blocked until @c access has been performed, reading // from or writing to @c value. It should not be performed until at least // @c cycles have passed. enum class AccessType { /// Plots a single pixel of the current contextual colour at @c location, /// which occurs as a read, then a 24-cycle pause, then a write. PlotPoint, /// Blocks until the next CPU write to the colour register. WaitForColourReceipt, }; AccessType access = AccessType::PlotPoint; int cycles = 0; bool is_cpu_transfer = false; Vector location; /// Current command parameters. CommandContext &context; Command(CommandContext &context) : context(context) {} /// @returns @c true if all output from this command is done; @c false otherwise. virtual bool done() = 0; /// Repopulates the fields above with the next action to take. virtual void advance() = 0; }; // MARK: - Line drawing. namespace Commands { /// Implements the LINE command, which is plain-old Bresenham. /// /// Per Grauw timing is: /// /// * 88 cycles between every pixel plot; /// * plus an additional 32 cycles if a step along the minor axis is taken. struct Line: public Command { public: Line(CommandContext &context) : Command(context) { // context.destination = start position; // context.size.v[0] = long side dots; // context.size.v[1] = short side dots; // context.arguments => direction location = context.destination; position_ = context.size.v[1]; numerator_ = position_ << 1; denominator_ = context.size.v[0] << 1; cycles = 32; access = AccessType::PlotPoint; } bool done() final { return !context.size.v[0]; } void advance() final { --context.size.v[0]; cycles = 88; // b0: 1 => long direction is y; // 0 => long direction is x. // // b2: 1 => x direction is left; // 0 => x direction is right. // // b3: 1 => y direction is up; // 0 => y direction is down. if(context.arguments & 0x1) { location.add<1>(context.arguments & 0x8 ? -1 : 1); } else { location.add<0>(context.arguments & 0x4 ? -1 : 1); } position_ -= numerator_; if(position_ < 0) { position_ += denominator_; cycles += 32; if(context.arguments & 0x1) { location.add<0>(context.arguments & 0x4 ? -1 : 1); } else { location.add<1>(context.arguments & 0x8 ? -1 : 1); } } } private: int position_, numerator_, denominator_, duration_; }; /// Implements the PSET command, which plots a single pixel. /// /// No timings are documented, so this'll output as quickly as possible. struct PointSet: public Command { public: PointSet(CommandContext &context) : Command(context) { cycles = 0; access = AccessType::PlotPoint; location = context.destination; } bool done() final { return done_; } void advance() final { done_ = true; } private: bool done_ = false; }; struct LogicalMoveFromCPU: public Command { public: LogicalMoveFromCPU(CommandContext &context) : Command(context) { is_cpu_transfer = true; start_x_ = context.destination.v[0]; width_ = context.size.v[0]; // This command is started with the first colour ready to transfer. cycles = 32; access = AccessType::PlotPoint; location = context.destination; } void advance() final { switch(access) { default: break; case AccessType::WaitForColourReceipt: cycles = 32; location = context.destination; access = AccessType::PlotPoint; break; case AccessType::PlotPoint: cycles = 0; access = AccessType::WaitForColourReceipt; context.destination.add<0>(context.arguments & 0x4 ? -1 : 1); --context.size.v[0]; if(!context.size.v[0]) { cycles = 64; context.size.v[0] = width_; context.destination.v[0] = start_x_; context.destination.add<1>(context.arguments & 0x8 ? -1 : 1); --context.size.v[1]; } break; } } bool done() final { return !context.size.v[1] || !width_; } private: int start_x_ = 0, width_ = 0; }; } } } #endif /* YamahaCommands_hpp */