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author | richiesams | 2013-08-24 00:25:55 -0500 |
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committer | richiesams | 2013-08-24 00:25:55 -0500 |
commit | 7d48a3e4b129784c7870472cbbaf6fa9488fffe6 (patch) | |
tree | 16d718f8d2ef5e822616cd0ed71824c01ecd3a47 /engines | |
parent | a596d1241cf0b443d3c2f8099546bc620116dcb2 (diff) | |
download | scummvm-rg350-7d48a3e4b129784c7870472cbbaf6fa9488fffe6.tar.gz scummvm-rg350-7d48a3e4b129784c7870472cbbaf6fa9488fffe6.tar.bz2 scummvm-rg350-7d48a3e4b129784c7870472cbbaf6fa9488fffe6.zip |
ZVISION: Partially implement LeverControl
Diffstat (limited to 'engines')
-rw-r--r-- | engines/zvision/control.cpp | 323 | ||||
-rw-r--r-- | engines/zvision/control.h | 88 |
2 files changed, 410 insertions, 1 deletions
diff --git a/engines/zvision/control.cpp b/engines/zvision/control.cpp index ff767863f4..9a1d52bd4f 100644 --- a/engines/zvision/control.cpp +++ b/engines/zvision/control.cpp @@ -23,16 +23,25 @@ #include "common/scummsys.h" #include "common/stream.h" +#include "common/system.h" +#include "common/tokenizer.h" #include "zvision/zvision.h" #include "zvision/render_manager.h" #include "zvision/render_table.h" #include "zvision/script_manager.h" +#include "zvision/cursor_manager.h" #include "zvision/control.h" #include "zvision/utility.h" +#include "zvision/rlf_animation.h" +#include "zvision/zork_avi_decoder.h" namespace ZVision { +////////////////////////////////////////////////////////////////////////////// +// Static member functions +////////////////////////////////////////////////////////////////////////////// + void Control::parseFlatControl(ZVision *engine) { engine->getRenderManager()->getRenderTable()->setRenderState(RenderTable::FLAT); } @@ -176,4 +185,318 @@ bool PushToggleControl::onMouseMove(const Common::Point &screenSpacePos, const C return false; } + +////////////////////////////////////////////////////////////////////////////// +// LeverControl +////////////////////////////////////////////////////////////////////////////// + +LeverControl::LeverControl(ZVision *engine, uint32 key, Common::SeekableReadStream &stream) + : MouseEvent(key), + _engine(engine), + _frameInfo(0), + _frameCount(0), + _startFrame(0), + _currentFrame(0), + _mouseIsCaptured(false), + _isReturning(false) { + + // Loop until we find the closing brace + Common::String line = stream.readLine(); + trimCommentsAndWhiteSpace(&line); + + while (!stream.eos() && !line.contains('}')) { + if (line.matchString("*descfile*", true)) { + char levFileName[25]; + sscanf(line.c_str(), "%*[^(](%25[^)])", levFileName); + + parseLevFile(levFileName); + } else if (line.matchString("*cursor*", true)) { + char cursorName[25]; + sscanf(line.c_str(), "%*[^(](%25[^)])", cursorName); + + _cursorName = Common::String(cursorName); + } + + line = stream.readLine(); + trimCommentsAndWhiteSpace(&line); + } + + renderFrame(_currentFrame); + + _engine->getScriptManager()->addActionNode(this); +} + +LeverControl::~LeverControl() { + if (_fileType == AVI) { + delete _animation.avi; + } else if (_fileType == RLF) { + delete _animation.rlf; + } + if (_frameInfo != 0) { + delete[] _frameInfo; + } +} + +void LeverControl::parseLevFile(const Common::String &fileName) { + Common::File file; + if (!file.open(fileName)) { + warning("LEV file %s could could be opened", fileName.c_str()); + return; + } + + Common::String line = file.readLine(); + + while (!file.eos()) { + if (line.matchString("*animation_id*", true)) { + // Not used + } else if (line.matchString("*filename*", true)) { + char fileNameBuffer[25]; + sscanf(line.c_str(), "%*[^:]:%25[^~]~", fileNameBuffer); + + Common::String fileName(fileNameBuffer); + + if (fileName.hasSuffix(".avi")) { + _animation.avi = new ZorkAVIDecoder(); + _animation.avi->loadFile(fileName); + } else if (fileName.hasSuffix(".rlf")) { + _animation.rlf = new RlfAnimation(fileNameBuffer, false); + } + } else if (line.matchString("*skipcolor*", true)) { + // Not used + } else if (line.matchString("*anim_coords*", true)) { + sscanf(line.c_str(), "%*[^:]:%u %u %u %u~", &_animationCoords.left, &_animationCoords.top, &_animationCoords.right, &_animationCoords.bottom); + } else if (line.matchString("*mirrored*", true)) { + uint mirrored; + sscanf(line.c_str(), "%*[^:]:%u~", &mirrored); + + _mirrored = mirrored == 0 ? false : true; + } else if (line.matchString("*frames*", true)) { + sscanf(line.c_str(), "%*[^:]:%u~", &_frameCount); + + _frameInfo = new FrameInfo[_frameCount]; + } else if (line.matchString("*elsewhere*", true)) { + // Not used + } else if (line.matchString("*out_of_control*", true)) { + // Not used + } else if (line.matchString("*start_pos*", true)) { + sscanf(line.c_str(), "%*[^:]:%u~", &_startFrame); + _currentFrame = _startFrame; + } else if (line.matchString("*hotspot_deltas*", true)) { + uint x; + uint y; + sscanf(line.c_str(), "%*[^:]:%u %u~", &x, &y); + + _hotspotDelta.x = x; + _hotspotDelta.y = y; + } else { + uint frameNumber; + uint x, y; + + if (sscanf(line.c_str(), "%u:%u %u", &frameNumber, &x, &y) == 3) { + _frameInfo[frameNumber].hotspot.left = x; + _frameInfo[frameNumber].hotspot.top = y; + _frameInfo[frameNumber].hotspot.right = x + _hotspotDelta.x; + _frameInfo[frameNumber].hotspot.bottom = y + _hotspotDelta.y; + } + + Common::StringTokenizer tokenizer(line, " ^="); + tokenizer.nextToken(); + tokenizer.nextToken(); + + Common::String token = tokenizer.nextToken(); + while (!tokenizer.empty()) { + if (token == "D") { + token = tokenizer.nextToken(); + + uint angle; + uint toFrame; + sscanf(token.c_str(), "%u,%u", &toFrame, &angle); + + _frameInfo[frameNumber].directions.push_back(Direction(angle, toFrame)); + } else if (token.hasPrefix("P")) { + uint to; + sscanf(token.c_str(), "P(%*u to %u)", &to); + + _frameInfo[frameNumber].returnRoute.push_back(to); + } + + token = tokenizer.nextToken(); + } + } + + line = file.readLine(); + } +} + +void LeverControl::onMouseDown(const Common::Point &screenSpacePos, const Common::Point backgroundImageSpacePos) { + if (_frameInfo[_currentFrame].hotspot.contains(backgroundImageSpacePos)) { + _mouseIsCaptured = true; + _lastMousePos = backgroundImageSpacePos; + } +} + +void LeverControl::onMouseUp(const Common::Point &screenSpacePos, const Common::Point backgroundImageSpacePos) { + _mouseIsCaptured = false; + _engine->getScriptManager()->setStateValue(_key, _currentFrame); + + if (_frameInfo[_currentFrame].hotspot.contains(backgroundImageSpacePos)) { + + } + + // TODO: Animation reversal back to origin +} + +bool LeverControl::onMouseMove(const Common::Point &screenSpacePos, const Common::Point backgroundImageSpacePos) { + bool cursorWasChanged = false; + + if (_mouseIsCaptured) { + // Make sure the square distance between the last point and the current point is greater than 64 + // This is a heuristic. This determines how responsive the lever is to mouse movement. + // TODO: Fiddle with the heuristic to get a good lever responsiveness 'feel' + if (_lastMousePos.sqrDist(backgroundImageSpacePos) >= 64) { + int angle = calculateVectorAngle(_lastMousePos, backgroundImageSpacePos); + _lastMousePos = backgroundImageSpacePos; + + for (Common::List<Direction>::iterator iter = _frameInfo[_currentFrame].directions.begin(); iter != _frameInfo[_currentFrame].directions.end(); iter++) { + if (angle >= (int)(*iter).angle - ANGLE_DELTA && angle <= (int)(*iter).angle) { + _currentFrame = (*iter).toFrame; + renderFrame(_currentFrame); + break; + } + } + } + } else if (_frameInfo[_currentFrame].hotspot.contains(backgroundImageSpacePos)) { + _engine->getCursorManager()->changeCursor(_cursorName); + } + + return cursorWasChanged; +} + +bool LeverControl::process(uint32 deltaTimeInMillis) { + // TODO: Implement reversal over time + + return false; +} + +int LeverControl::calculateVectorAngle(const Common::Point &pointOne, const Common::Point &pointTwo) { + // Check for the easy angles first + if (pointOne.x == pointTwo.x && pointOne.y == pointTwo.y) + return -1; // This should never happen + else if (pointOne.x == pointTwo.x) { + if (pointTwo.y > pointOne.y) + return 90; + else + return 270; + } else if (pointOne.y == pointTwo.y) { + if (pointTwo.x > pointOne.x) + return 0; + else + return 180; + } else { + // Calculate the angle with trig + int16 xDist = pointTwo.x - pointOne.x; + int16 yDist = pointTwo.y - pointOne.y; + + int angle = int(atan((float)yDist / (float)xDist)); + + // Convert to degrees. (180 / 3.14159 = 57.2958) + angle *= 57; + + // Calculate what quadrant pointTwo is in + uint quadrant = ((yDist > 0 ? 1 : 0) << 1) | (xDist < 0 ? 1 : 0); + + // Explanation of quadrants: + // + // yDist > 0 | xDist < 0 | Quadrant number + // 0 | 0 | 0 + // 0 | 1 | 1 + // 1 | 0 | 2 + // 1 | 1 | 3 + // + // Note: I know this doesn't line up with traditional mathematical quadrants + // but doing it this way allows you can use a switch and is a bit cleaner IMO. + // + // The graph below shows the 4 quadrants pointTwo can end up in as well + // as what the angle as calculated above refers to. + // Note: The calculated angle in quadrants 0 and 3 is negative + // due to arctan(-x) = -theta + // + // Origin => (pointOne.x, pointOne.y) + // * => (pointTwo.x, pointTwo.y) + // + // 90 + // ^ + // * | * + // \ | / + // \ | / + // \ | / + // Quadrant 3 \ | / Quadrant 2 + // \ | / + // \ | / + // -angle ( \|/ ) angle + // 180 <----------------------------------------> 0 + // angle ( /|\ ) -angle + // / | \ + // / | \ + // Quadrant 1 / | \ Quadrant 0 + // / | \ + // / | \ + // / | \ + // * | * + // ^ + // 270 + + // Convert the local angles to unit circle angles + switch (quadrant) { + case 0: + angle = 360 + angle; + break; + case 1: + angle = 180 + angle; + break; + case 2: + angle = 180 + angle; + break; + case 3: + // Do nothing + break; + } + + return angle; + } +} + +void LeverControl::renderFrame(uint frameNumber) { + const uint16 *frameData; + int pitch; + int x; + int y; + int width; + int height; + + if (_fileType == RLF) { + // getFrameData() will automatically optimize to getNextFrame() / getPreviousFrame() if it can + frameData = _animation.rlf->getFrameData(_currentFrame); + pitch = _animation.rlf->width() * sizeof(uint16); + x = _animationCoords.left; + y = _animationCoords.right; + width = _animation.rlf->width(); // Use the animation width instead of _animationCoords.width() + height = _animation.rlf->height(); // Use the animation height instead of _animationCoords.height() + } else if (_fileType == AVI) { + // Cry because AVI seeking isn't implemented (yet) + } + + _engine->_system->copyRectToScreen(frameData, pitch, x + _engine->_workingWindow.left, y + _engine->_workingWindow.top, width, height); +} + +bool LeverControl::enable() { + // TODO: Implement + return true; +} + +bool LeverControl::disable() { + // TODO: Implement + return true; +} + } // End of namespace ZVision diff --git a/engines/zvision/control.h b/engines/zvision/control.h index 28079d52e7..d764f914bb 100644 --- a/engines/zvision/control.h +++ b/engines/zvision/control.h @@ -26,6 +26,7 @@ #include "common/types.h" #include "zvision/mouse_event.h" +#include "zvision/action_node.h" namespace Common { class SeekableReadStream; @@ -34,6 +35,8 @@ class SeekableReadStream; namespace ZVision { class ZVision; +class RlfAnimation; +class ZorkAVIDecoder; class Control { public: @@ -94,15 +97,98 @@ private: Common::String _hoverCursor; }; + +class LeverControl : public Control, public MouseEvent, public ActionNode { public: + LeverControl(ZVision *engine, uint32 key, Common::SeekableReadStream &stream); + ~LeverControl(); + +private: + enum FileType { + RLF = 1, + AVI = 2 + }; + + struct Direction { + Direction(uint angle, uint toFrame) : angle(angle), toFrame(toFrame) {} + + uint angle; + uint toFrame; + }; + + struct FrameInfo { + Common::Rect hotspot; + Common::List<Direction> directions; + Common::List<uint> returnRoute; + }; + + enum { + ANGLE_DELTA = 30 // How far off a mouse angle can be and still be considered valid. This is in both directions, so the total buffer zone is (2 * ANGLE_DELTA) + }; private: + ZVision *_engine; + + union { + RlfAnimation *rlf; + ZorkAVIDecoder *avi; + } _animation; + FileType _fileType; + + Common::String _cursorName; + Common::Rect _animationCoords; + bool _mirrored; + uint _frameCount; + uint _startFrame; + Common::Point _hotspotDelta; + FrameInfo *_frameInfo; + + uint _currentFrame; + bool _mouseIsCaptured; + bool _isReturning; + Common::Point _lastMousePos; + Common::List<uint>::iterator _returnRoutesCurrentProgress; + +public: + bool enable(); + bool disable(); + void onMouseDown(const Common::Point &screenSpacePos, const Common::Point backgroundImageSpacePos); + void onMouseUp(const Common::Point &screenSpacePos, const Common::Point backgroundImageSpacePos); + bool onMouseMove(const Common::Point &screenSpacePos, const Common::Point backgroundImageSpacePos); + bool process(uint32 deltaTimeInMillis); + +private: + void parseLevFile(const Common::String &fileName); + /** + * Calculates the angle a vector makes with the negative y-axis + * + * 90 + * pointTwo * ^ + * \ | + * \ | + * \ | + * \ | + * angle ( \|pointOne + * 180 <-----------*-----------> 0 + * | + * | + * | + * | + * | + * ^ + * 270 + * + * @param pointOne The origin of the vector + * @param pointTwo The end of the vector + * @return The angle the vector makes with the negative y-axis + */ + static int calculateVectorAngle(const Common::Point &pointOne, const Common::Point &pointTwo); + void renderFrame(uint frameNumber); }; // TODO: Implement InputControl // TODO: Implement SaveControl // TODO: Implement SlotControl -// TODO: Implement LeverControl // TODO: Implement SafeControl // TODO: Implement FistControl // TODO: Implement HotMovieControl |