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/*
* Copyright 2009, The Android Open Source Project
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "PaintPlugin.h"
#include <fcntl.h>
#include <math.h>
#include <string.h>
extern NPNetscapeFuncs* browser;
extern ANPLogInterfaceV0 gLogI;
extern ANPCanvasInterfaceV0 gCanvasI;
extern ANPPaintInterfaceV0 gPaintI;
extern ANPPathInterfaceV0 gPathI;
extern ANPSurfaceInterfaceV0 gSurfaceI;
extern ANPSystemInterfaceV0 gSystemI;
extern ANPTypefaceInterfaceV0 gTypefaceI;
extern ANPWindowInterfaceV0 gWindowI;
///////////////////////////////////////////////////////////////////////////////
PaintPlugin::PaintPlugin(NPP inst) : SurfaceSubPlugin(inst) {
m_isTouchActive = false;
m_isTouchCurrentInput = true;
m_activePaintColor = s_redColor;
memset(&m_drawingSurface, 0, sizeof(m_drawingSurface));
memset(&m_inputToggle, 0, sizeof(m_inputToggle));
memset(&m_colorToggle, 0, sizeof(m_colorToggle));
memset(&m_fullScreenToggle, 0, sizeof(m_fullScreenToggle));
memset(&m_clearSurface, 0, sizeof(m_clearSurface));
// initialize the drawing surface
m_surface = NULL;
// initialize the path
m_touchPath = gPathI.newPath();
if(!m_touchPath)
gLogI.log(kError_ANPLogType, "----%p Unable to create the touch path", inst);
// initialize the paint colors
m_paintSurface = gPaintI.newPaint();
gPaintI.setFlags(m_paintSurface, gPaintI.getFlags(m_paintSurface) | kAntiAlias_ANPPaintFlag);
gPaintI.setColor(m_paintSurface, 0xFFC0C0C0);
gPaintI.setTextSize(m_paintSurface, 18);
m_paintButton = gPaintI.newPaint();
gPaintI.setFlags(m_paintButton, gPaintI.getFlags(m_paintButton) | kAntiAlias_ANPPaintFlag);
gPaintI.setColor(m_paintButton, 0xFFA8A8A8);
// initialize the typeface (set the colors)
ANPTypeface* tf = gTypefaceI.createFromName("serif", kItalic_ANPTypefaceStyle);
gPaintI.setTypeface(m_paintSurface, tf);
gTypefaceI.unref(tf);
//register for touch events
ANPEventFlags flags = kTouch_ANPEventFlag;
NPError err = browser->setvalue(inst, kAcceptEvents_ANPSetValue, &flags);
if (err != NPERR_NO_ERROR) {
gLogI.log(kError_ANPLogType, "Error selecting input events.");
}
}
PaintPlugin::~PaintPlugin() {
gPathI.deletePath(m_touchPath);
gPaintI.deletePaint(m_paintSurface);
gPaintI.deletePaint(m_paintButton);
setContext(NULL);
destroySurface();
}
ANPCanvas* PaintPlugin::getCanvas(ANPRectI* dirtyRect) {
ANPBitmap bitmap;
JNIEnv* env = NULL;
if (!m_surface || gVM->GetEnv((void**) &env, JNI_VERSION_1_4) != JNI_OK ||
!gSurfaceI.lock(env, m_surface, &bitmap, dirtyRect)) {
return NULL;
}
ANPCanvas* canvas = gCanvasI.newCanvas(&bitmap);
// clip the canvas to the dirty rect b/c the surface is only required to
// copy a minimum of the dirty rect and may copy more. The clipped canvas
// however will never write to pixels outside of the clipped area.
if (dirtyRect) {
ANPRectF clipR;
clipR.left = dirtyRect->left;
clipR.top = dirtyRect->top;
clipR.right = dirtyRect->right;
clipR.bottom = dirtyRect->bottom;
gCanvasI.clipRect(canvas, &clipR);
}
return canvas;
}
ANPCanvas* PaintPlugin::getCanvas(ANPRectF* dirtyRect) {
ANPRectI newRect;
newRect.left = (int) dirtyRect->left;
newRect.top = (int) dirtyRect->top;
newRect.right = (int) dirtyRect->right;
newRect.bottom = (int) dirtyRect->bottom;
return getCanvas(&newRect);
}
void PaintPlugin::releaseCanvas(ANPCanvas* canvas) {
JNIEnv* env = NULL;
if (m_surface && gVM->GetEnv((void**) &env, JNI_VERSION_1_4) == JNI_OK) {
gSurfaceI.unlock(env, m_surface);
}
gCanvasI.deleteCanvas(canvas);
}
void PaintPlugin::drawCleanPlugin(ANPCanvas* canvas) {
NPP instance = this->inst();
PluginObject *obj = (PluginObject*) instance->pdata;
// if no canvas get a locked canvas
if (!canvas)
canvas = getCanvas();
if (!canvas)
return;
const float buttonWidth = 60;
const float buttonHeight = 30;
const int W = obj->window->width;
const int H = obj->window->height;
// color the plugin canvas
gCanvasI.drawColor(canvas, 0xFFCDCDCD);
// get font metrics
ANPFontMetrics fontMetrics;
gPaintI.getFontMetrics(m_paintSurface, &fontMetrics);
// draw the input toggle button
m_inputToggle.left = 5;
m_inputToggle.top = H - buttonHeight - 5;
m_inputToggle.right = m_inputToggle.left + buttonWidth;
m_inputToggle.bottom = m_inputToggle.top + buttonHeight;
gCanvasI.drawRect(canvas, &m_inputToggle, m_paintButton);
const char* inputText = m_isTouchCurrentInput ? "Touch" : "Mouse";
gCanvasI.drawText(canvas, inputText, strlen(inputText), m_inputToggle.left + 5,
m_inputToggle.top - fontMetrics.fTop, m_paintSurface);
// draw the color selector button
m_colorToggle.left = (W/3) - (buttonWidth/2);
m_colorToggle.top = H - buttonHeight - 5;
m_colorToggle.right = m_colorToggle.left + buttonWidth;
m_colorToggle.bottom = m_colorToggle.top + buttonHeight;
gCanvasI.drawRect(canvas, &m_colorToggle, m_paintButton);
const char* colorText = getColorText();
gCanvasI.drawText(canvas, colorText, strlen(colorText), m_colorToggle.left + 5,
m_colorToggle.top - fontMetrics.fTop, m_paintSurface);
// draw the full-screen toggle button
m_fullScreenToggle.left = ((W*2)/3) - (buttonWidth/2);
m_fullScreenToggle.top = H - buttonHeight - 5;
m_fullScreenToggle.right = m_fullScreenToggle.left + buttonWidth;
m_fullScreenToggle.bottom = m_fullScreenToggle.top + buttonHeight;
gCanvasI.drawRect(canvas, &m_fullScreenToggle, m_paintButton);
const char* fullScreenText = "Full";
gCanvasI.drawText(canvas, fullScreenText, strlen(fullScreenText),
m_fullScreenToggle.left + 5,
m_fullScreenToggle.top - fontMetrics.fTop, m_paintSurface);
// draw the clear canvas button
m_clearSurface.left = W - buttonWidth - 5;
m_clearSurface.top = H - buttonHeight - 5;
m_clearSurface.right = m_clearSurface.left + buttonWidth;
m_clearSurface.bottom = m_clearSurface.top + buttonHeight;
gCanvasI.drawRect(canvas, &m_clearSurface, m_paintButton);
const char* clearText = "Clear";
gCanvasI.drawText(canvas, clearText, strlen(clearText), m_clearSurface.left + 5,
m_clearSurface.top - fontMetrics.fTop, m_paintSurface);
// draw the drawing surface box (5 px from the edge)
m_drawingSurface.left = 5;
m_drawingSurface.top = 5;
m_drawingSurface.right = W - 5;
m_drawingSurface.bottom = m_colorToggle.top - 5;
gCanvasI.drawRect(canvas, &m_drawingSurface, m_paintSurface);
// release the canvas
releaseCanvas(canvas);
}
const char* PaintPlugin::getColorText() {
if (m_activePaintColor == s_blueColor)
return "Blue";
else if (m_activePaintColor == s_greenColor)
return "Green";
else
return "Red";
}
jobject PaintPlugin::getSurface() {
if (m_surface) {
return m_surface;
}
// load the appropriate java class and instantiate it
JNIEnv* env = NULL;
if (gVM->GetEnv((void**) &env, JNI_VERSION_1_4) != JNI_OK) {
gLogI.log(kError_ANPLogType, " ---- getSurface: failed to get env");
return NULL;
}
const char* className = "com.android.sampleplugin.PaintSurface";
jclass paintClass = gSystemI.loadJavaClass(inst(), className);
if(!paintClass) {
gLogI.log(kError_ANPLogType, " ---- getSurface: failed to load class");
return NULL;
}
PluginObject *obj = (PluginObject*) inst()->pdata;
const int pW = obj->window->width;
const int pH = obj->window->height;
jmethodID constructor = env->GetMethodID(paintClass, "<init>", "(Landroid/content/Context;III)V");
jobject paintSurface = env->NewObject(paintClass, constructor, m_context, (int)inst(), pW, pH);
if(!paintSurface) {
gLogI.log(kError_ANPLogType, " ---- getSurface: failed to construct object");
return NULL;
}
m_surface = env->NewGlobalRef(paintSurface);
return m_surface;
}
void PaintPlugin::destroySurface() {
JNIEnv* env = NULL;
if (m_surface && gVM->GetEnv((void**) &env, JNI_VERSION_1_4) == JNI_OK) {
// detach the native code from the object
jclass javaClass = env->GetObjectClass(m_surface);
jmethodID invalMethod = env->GetMethodID(javaClass, "invalidateNPP", "()V");
env->CallVoidMethod(m_surface, invalMethod);
env->DeleteGlobalRef(m_surface);
m_surface = NULL;
}
}
int16_t PaintPlugin::handleEvent(const ANPEvent* evt) {
switch (evt->eventType) {
case kTouch_ANPEventType: {
float x = (float) evt->data.touch.x;
float y = (float) evt->data.touch.y;
if (kDown_ANPTouchAction == evt->data.touch.action && m_isTouchCurrentInput) {
ANPRectF* rect = validTouch(evt->data.touch.x, evt->data.touch.y);
if(rect == &m_drawingSurface) {
m_isTouchActive = true;
gPathI.moveTo(m_touchPath, x, y);
paintTouch();
return 1;
}
} else if (kMove_ANPTouchAction == evt->data.touch.action && m_isTouchActive) {
gPathI.lineTo(m_touchPath, x, y);
paintTouch();
return 1;
} else if (kUp_ANPTouchAction == evt->data.touch.action && m_isTouchActive) {
gPathI.lineTo(m_touchPath, x, y);
paintTouch();
m_isTouchActive = false;
gPathI.reset(m_touchPath);
return 1;
} else if (kCancel_ANPTouchAction == evt->data.touch.action) {
m_isTouchActive = false;
gPathI.reset(m_touchPath);
return 1;
} else if (kDoubleTap_ANPTouchAction == evt->data.touch.action) {
gWindowI.requestCenterFitZoom(inst());
return 1;
}
break;
}
case kMouse_ANPEventType: {
if (m_isTouchActive)
gLogI.log(kError_ANPLogType, "----%p Received unintended mouse event", inst());
if (kDown_ANPMouseAction == evt->data.mouse.action) {
ANPRectF* rect = validTouch(evt->data.mouse.x, evt->data.mouse.y);
if (rect == &m_drawingSurface)
paintMouse(evt->data.mouse.x, evt->data.mouse.y);
else if (rect == &m_inputToggle)
toggleInputMethod();
else if (rect == &m_colorToggle)
togglePaintColor();
else if (rect == &m_fullScreenToggle)
gWindowI.requestFullScreen(inst());
else if (rect == &m_clearSurface)
drawCleanPlugin();
}
return 1;
}
case kCustom_ANPEventType: {
switch (evt->data.other[0]) {
case kSurfaceCreated_CustomEvent:
gLogI.log(kDebug_ANPLogType, " ---- customEvent: surfaceCreated");
/* The second draw call is added to cover up a problem in this
plugin and is not a recommended usage pattern. This plugin
does not correctly make partial updates to the double
buffered surface and this second call hides that problem.
*/
drawCleanPlugin();
drawCleanPlugin();
break;
case kSurfaceChanged_CustomEvent: {
gLogI.log(kDebug_ANPLogType, " ---- customEvent: surfaceChanged");
int width = evt->data.other[1];
int height = evt->data.other[2];
PluginObject *obj = (PluginObject*) inst()->pdata;
const int pW = obj->window->width;
const int pH = obj->window->height;
// compare to the plugin's surface dimensions
if (pW != width || pH != height)
gLogI.log(kError_ANPLogType,
"----%p Invalid Surface Dimensions (%d,%d):(%d,%d)",
inst(), pW, pH, width, height);
break;
}
case kSurfaceDestroyed_CustomEvent:
gLogI.log(kDebug_ANPLogType, " ---- customEvent: surfaceDestroyed");
break;
}
break; // end KCustom_ANPEventType
}
default:
break;
}
return 0; // unknown or unhandled event
}
ANPRectF* PaintPlugin::validTouch(int x, int y) {
//convert to float
float fx = (int) x;
float fy = (int) y;
if (fx > m_drawingSurface.left && fx < m_drawingSurface.right && fy > m_drawingSurface.top && fy < m_drawingSurface.bottom)
return &m_drawingSurface;
else if (fx > m_inputToggle.left && fx < m_inputToggle.right && fy > m_inputToggle.top && fy < m_inputToggle.bottom)
return &m_inputToggle;
else if (fx > m_colorToggle.left && fx < m_colorToggle.right && fy > m_colorToggle.top && fy < m_colorToggle.bottom)
return &m_colorToggle;
else if (fx > m_fullScreenToggle.left && fx < m_fullScreenToggle.right && fy > m_fullScreenToggle.top && fy < m_fullScreenToggle.bottom)
return &m_fullScreenToggle;
else if (fx > m_clearSurface.left && fx < m_clearSurface.right && fy > m_clearSurface.top && fy < m_clearSurface.bottom)
return &m_clearSurface;
else
return NULL;
}
void PaintPlugin::toggleInputMethod() {
m_isTouchCurrentInput = !m_isTouchCurrentInput;
// lock only the input toggle and redraw the canvas
ANPCanvas* lockedCanvas = getCanvas(&m_inputToggle);
drawCleanPlugin(lockedCanvas);
}
void PaintPlugin::togglePaintColor() {
if (m_activePaintColor == s_blueColor)
m_activePaintColor = s_redColor;
else if (m_activePaintColor == s_greenColor)
m_activePaintColor = s_blueColor;
else
m_activePaintColor = s_greenColor;
// lock only the color toggle and redraw the canvas
ANPCanvas* lockedCanvas = getCanvas(&m_colorToggle);
drawCleanPlugin(lockedCanvas);
}
void PaintPlugin::paintMouse(int x, int y) {
//TODO do not paint outside the drawing surface
//create the paint color
ANPPaint* fillPaint = gPaintI.newPaint();
gPaintI.setFlags(fillPaint, gPaintI.getFlags(fillPaint) | kAntiAlias_ANPPaintFlag);
gPaintI.setStyle(fillPaint, kFill_ANPPaintStyle);
gPaintI.setColor(fillPaint, m_activePaintColor);
// handle the simple "mouse" paint (draw a point)
ANPRectF point;
point.left = (float) x-3;
point.top = (float) y-3;
point.right = (float) x+3;
point.bottom = (float) y+3;
// get a canvas that is only locked around the point and draw it
ANPCanvas* canvas = getCanvas(&point);
gCanvasI.drawOval(canvas, &point, fillPaint);
// clean up
releaseCanvas(canvas);
gPaintI.deletePaint(fillPaint);
}
void PaintPlugin::paintTouch() {
//TODO do not paint outside the drawing surface
//create the paint color
ANPPaint* strokePaint = gPaintI.newPaint();
gPaintI.setFlags(strokePaint, gPaintI.getFlags(strokePaint) | kAntiAlias_ANPPaintFlag);
gPaintI.setColor(strokePaint, m_activePaintColor);
gPaintI.setStyle(strokePaint, kStroke_ANPPaintStyle);
gPaintI.setStrokeWidth(strokePaint, 6.0);
gPaintI.setStrokeCap(strokePaint, kRound_ANPPaintCap);
gPaintI.setStrokeJoin(strokePaint, kRound_ANPPaintJoin);
// handle the complex "touch" paint (draw a line)
ANPRectF bounds;
gPathI.getBounds(m_touchPath, &bounds);
// get a canvas that is only locked around the point and draw the path
ANPCanvas* canvas = getCanvas(&bounds);
gCanvasI.drawPath(canvas, m_touchPath, strokePaint);
// clean up
releaseCanvas(canvas);
gPaintI.deletePaint(strokePaint);
}