1 files changed, 493 insertions, 0 deletions
diff --git a/libs/cocos2d/CCProgressTimer.m b/libs/cocos2d/CCProgressTimer.m
new file mode 100755
index 0000000..4e697b2
--- /dev/null
+++ b/libs/cocos2d/CCProgressTimer.m

@@ -0,0 +1,493 @@
+/*
+ * cocos2d for iPhone: http://www.cocos2d-iphone.org
+ *
+ * Copyright (c) 2010 Lam Pham
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ * 
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ * 
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ *
+ */
+#import "CCProgressTimer.h"
+#import "ccMacros.h"
+#import "CCTextureCache.h"
+#import "Support/CGPointExtension.h"
+#define kProgressTextureCoordsCount 4
+//  kProgressTextureCoords holds points {0,0} {0,1} {1,1} {1,0} we can represent it as bits
+const char kProgressTextureCoords = 0x1e;
+@interface CCProgressTimer (Internal)
+-(void)updateProgress;
+-(void)updateBar;
+-(void)updateRadial;
+-(void)updateColor;
+-(CGPoint)boundaryTexCoord:(char)index;
+@end
+@implementation CCProgressTimer
+@synthesize percentage = percentage_;
+@synthesize sprite = sprite_;
+@synthesize type = type_;
+(id)progressWithFile:(NSString*) filename
+{
+        return [[[self alloc]initWithFile:filename] autorelease];
+}
+-(id)initWithFile:(NSString*) filename
+{
+        return [self initWithTexture:[[CCTextureCache sharedTextureCache] addImage: filename]];
+}
+(id)progressWithTexture:(CCTexture2D*) texture
+{
+        return [[[self alloc]initWithTexture:texture] autorelease];
+}
+-(id)initWithTexture:(CCTexture2D*) texture
+{
+        if(( self = [super init] )){
+                self.sprite = [CCSprite spriteWithTexture:texture];
+                percentage_ = 0.f;
+                vertexData_ = NULL;
+                vertexDataCount_ = 0;
+                self.anchorPoint = ccp(.5f,.5f);
+                self.contentSize = sprite_.contentSize;
+                self.type = kCCProgressTimerTypeRadialCCW;
+        }
+        return self;
+}
+-(void)dealloc
+{
+        if(vertexData_)
+                free(vertexData_);
+        
+        [sprite_ release];
+        [super dealloc];
+}
+-(void)setPercentage:(float) percentage
+{
+        if(percentage_ != percentage) {
+        percentage_ = clampf( percentage, 0, 100);              
+                [self updateProgress];
+        }
+}
+-(void)setSprite:(CCSprite *)newSprite
+{
+        if(sprite_ != newSprite){
+                [sprite_ release]; 
+                sprite_ = [newSprite retain];
+                
+                //      Everytime we set a new sprite, we free the current vertex data
+                if(vertexData_){
+                        free(vertexData_);
+                        vertexData_ = NULL;
+                        vertexDataCount_ = 0;
+                }
+        }
+}
+-(void)setType:(CCProgressTimerType)newType
+{
+        if (newType != type_) {
+                
+                //      release all previous information
+                if(vertexData_){
+                        free(vertexData_);
+                        vertexData_ = NULL;
+                        vertexDataCount_ = 0;
+                }
+                type_ = newType;
+        }
+}
+@end
+@implementation CCProgressTimer(Internal)
+///
+//      @returns the vertex position from the texture coordinate
+///
+-(ccVertex2F)vertexFromTexCoord:(CGPoint) texCoord
+{
+        CGPoint tmp;
+        ccVertex2F ret;
+        if (sprite_.texture) {
+                CCTexture2D *texture = [sprite_ texture];
+                CGSize texSize = [texture contentSizeInPixels];
+                tmp = ccp(texSize.width * texCoord.x/texture.maxS,
+                                   texSize.height * (1 - (texCoord.y/texture.maxT)));
+        } else
+                tmp = CGPointZero;
+        
+        ret.x = tmp.x;
+        ret.y = tmp.y;
+        return ret;
+}
+-(void)updateColor
+{
+        GLubyte op = sprite_.opacity;
+        ccColor3B c3b = sprite_.color;
+        
+        ccColor4B color = { c3b.r, c3b.g, c3b.b, op };
+        if([sprite_.texture hasPremultipliedAlpha]){
+                color.r *= op/255;
+                color.g *= op/255;
+                color.b *= op/255;
+        }
+        
+        if(vertexData_){
+                for (int i=0; i < vertexDataCount_; ++i) {
+                        vertexData_[i].colors = color;
+                }
+        }
+}
+-(void)updateProgress
+{
+        switch (type_) {
+                case kCCProgressTimerTypeRadialCW:
+                case kCCProgressTimerTypeRadialCCW:
+                        [self updateRadial];
+                        break;
+                case kCCProgressTimerTypeHorizontalBarLR:
+                case kCCProgressTimerTypeHorizontalBarRL:
+                case kCCProgressTimerTypeVerticalBarBT:
+                case kCCProgressTimerTypeVerticalBarTB:
+                        [self updateBar];
+                        break;
+                default:
+                        break;
+        }
+}
+///
+//      Update does the work of mapping the texture onto the triangles
+//      It now doesn't occur the cost of free/alloc data every update cycle.
+//      It also only changes the percentage point but no other points if they have not
+//      been modified.
+//      
+//      It now deals with flipped texture. If you run into this problem, just use the
+//      sprite property and enable the methods flipX, flipY.
+///
+-(void)updateRadial
+{               
+        //      Texture Max is the actual max coordinates to deal with non-power of 2 textures
+        CGPoint tMax = ccp(sprite_.texture.maxS,sprite_.texture.maxT);
+        
+        //      Grab the midpoint
+        CGPoint midpoint = ccpCompMult(self.anchorPoint, tMax);
+        
+        float alpha = percentage_ / 100.f;
+        
+        //      Otherwise we can get the angle from the alpha
+        float angle = 2.f*((float)M_PI) * ( type_ == kCCProgressTimerTypeRadialCW? alpha : 1.f - alpha);
+        
+        //      We find the vector to do a hit detection based on the percentage
+        //      We know the first vector is the one @ 12 o'clock (top,mid) so we rotate 
+        //      from that by the progress angle around the midpoint pivot
+        CGPoint topMid = ccp(midpoint.x, 0.f);
+        CGPoint percentagePt = ccpRotateByAngle(topMid, midpoint, angle);
+        
+        
+        int index = 0;
+        CGPoint hit = CGPointZero;
+        
+        if (alpha == 0.f) {
+                //      More efficient since we don't always need to check intersection
+                //      If the alpha is zero then the hit point is top mid and the index is 0.
+                hit = topMid;
+                index = 0;
+        } else if (alpha == 1.f) {
+                //      More efficient since we don't always need to check intersection
+                //      If the alpha is one then the hit point is top mid and the index is 4.
+                hit = topMid;
+                index = 4;
+        } else {
+                //      We run a for loop checking the edges of the texture to find the
+                //      intersection point
+                //      We loop through five points since the top is split in half
+                
+                float min_t = FLT_MAX;
+                
+                for (int i = 0; i <= kProgressTextureCoordsCount; ++i) {
+                        int pIndex = (i + (kProgressTextureCoordsCount - 1))%kProgressTextureCoordsCount;
+                        
+                        CGPoint edgePtA = ccpCompMult([self boundaryTexCoord:i % kProgressTextureCoordsCount],tMax);
+                        CGPoint edgePtB = ccpCompMult([self boundaryTexCoord:pIndex],tMax);
+                        
+                        //      Remember that the top edge is split in half for the 12 o'clock position
+                        //      Let's deal with that here by finding the correct endpoints
+                        if(i == 0){
+                                edgePtB = ccpLerp(edgePtA,edgePtB,.5f);
+                        } else if(i == 4){
+                                edgePtA = ccpLerp(edgePtA,edgePtB,.5f);
+                        }
+                        
+                        //      s and t are returned by ccpLineIntersect
+                        float s = 0, t = 0;
+                        if(ccpLineIntersect(edgePtA, edgePtB, midpoint, percentagePt, &s, &t))
+                        {
+                                
+                                //      Since our hit test is on rays we have to deal with the top edge
+                                //      being in split in half so we have to test as a segment
+                                if ((i == 0 || i == 4)) {
+                                        //      s represents the point between edgePtA--edgePtB
+                                        if (!(0.f <= s && s <= 1.f)) {
+                                                continue;
+                                        }
+                                }
+                                //      As long as our t isn't negative we are at least finding a 
+                                //      correct hitpoint from midpoint to percentagePt.
+                                if (t >= 0.f) {
+                                        //      Because the percentage line and all the texture edges are
+                                        //      rays we should only account for the shortest intersection
+                                        if (t < min_t) {
+                                                min_t = t;
+                                                index = i;
+                                        }
+                                }
+                        }
+                }
+                
+                //      Now that we have the minimum magnitude we can use that to find our intersection
+                hit = ccpAdd(midpoint, ccpMult(ccpSub(percentagePt, midpoint),min_t));
+                
+        }
+        
+        
+        //      The size of the vertex data is the index from the hitpoint
+        //      the 3 is for the midpoint, 12 o'clock point and hitpoint position.
+        
+        BOOL sameIndexCount = YES;
+        if(vertexDataCount_ != index + 3){
+                sameIndexCount = NO;
+                if(vertexData_){
+                        free(vertexData_);
+                        vertexData_ = NULL;
+                        vertexDataCount_ = 0;
+                }
+        }
+        
+        
+        if(!vertexData_) {
+                vertexDataCount_ = index + 3;
+                vertexData_ = malloc(vertexDataCount_ * sizeof(ccV2F_C4B_T2F));
+                NSAssert( vertexData_, @"CCProgressTimer. Not enough memory");
+                
+                [self updateColor];
+        }
+        
+        if (!sameIndexCount) {
+                
+                //      First we populate the array with the midpoint, then all 
+                //      vertices/texcoords/colors of the 12 'o clock start and edges and the hitpoint
+                vertexData_[0].texCoords = (ccTex2F){midpoint.x, midpoint.y};
+                vertexData_[0].vertices = [self vertexFromTexCoord:midpoint];
+                
+                vertexData_[1].texCoords = (ccTex2F){midpoint.x, 0.f};
+                vertexData_[1].vertices = [self vertexFromTexCoord:ccp(midpoint.x, 0.f)];
+                
+                for(int i = 0; i < index; ++i){
+                        CGPoint texCoords = ccpCompMult([self boundaryTexCoord:i], tMax);
+                        
+                        vertexData_[i+2].texCoords = (ccTex2F){texCoords.x, texCoords.y};
+                        vertexData_[i+2].vertices = [self vertexFromTexCoord:texCoords];
+                }
+                
+                //      Flip the texture coordinates if set
+                if (sprite_.flipY || sprite_.flipX) {
+                        for(int i = 0; i < vertexDataCount_ - 1; ++i){
+                                if (sprite_.flipX) {
+                                        vertexData_[i].texCoords.u = tMax.x - vertexData_[i].texCoords.u;
+                                }
+                                if(sprite_.flipY){
+                                        vertexData_[i].texCoords.v = tMax.y - vertexData_[i].texCoords.v;
+                                }
+                        }
+                }
+        }
+        
+        //      hitpoint will go last
+        vertexData_[vertexDataCount_ - 1].texCoords = (ccTex2F){hit.x, hit.y};
+        vertexData_[vertexDataCount_ - 1].vertices = [self vertexFromTexCoord:hit];
+        
+        if (sprite_.flipY || sprite_.flipX) {
+                if (sprite_.flipX) {
+                        vertexData_[vertexDataCount_ - 1].texCoords.u = tMax.x - vertexData_[vertexDataCount_ - 1].texCoords.u;
+                }
+                if(sprite_.flipY){
+                        vertexData_[vertexDataCount_ - 1].texCoords.v = tMax.y - vertexData_[vertexDataCount_ - 1].texCoords.v;
+                }
+        }
+}
+///
+//      Update does the work of mapping the texture onto the triangles for the bar
+//      It now doesn't occur the cost of free/alloc data every update cycle.
+//      It also only changes the percentage point but no other points if they have not
+//      been modified.
+//      
+//      It now deals with flipped texture. If you run into this problem, just use the
+//      sprite property and enable the methods flipX, flipY.
+///
+-(void)updateBar
+{       
+        
+        float alpha = percentage_ / 100.f;
+        
+        CGPoint tMax = ccp(sprite_.texture.maxS,sprite_.texture.maxT);
+        
+        unsigned char vIndexes[2] = {0,0};
+        unsigned char index = 0;
+        
+        //      We know vertex data is always equal to the 4 corners
+        //      If we don't have vertex data then we create it here and populate
+        //      the side of the bar vertices that won't ever change.
+        if (!vertexData_) {
+                vertexDataCount_ = kProgressTextureCoordsCount;
+                vertexData_ = malloc(vertexDataCount_ * sizeof(ccV2F_C4B_T2F));
+                NSAssert( vertexData_, @"CCProgressTimer. Not enough memory");
+                
+                if(type_ == kCCProgressTimerTypeHorizontalBarLR){
+                        vertexData_[vIndexes[0] = 0].texCoords = (ccTex2F){0,0};
+                        vertexData_[vIndexes[1] = 1].texCoords = (ccTex2F){0, tMax.y};
+                }else if (type_ == kCCProgressTimerTypeHorizontalBarRL) {
+                        vertexData_[vIndexes[0] = 2].texCoords = (ccTex2F){tMax.x, tMax.y};
+                        vertexData_[vIndexes[1] = 3].texCoords = (ccTex2F){tMax.x, 0.f};
+                }else if (type_ == kCCProgressTimerTypeVerticalBarBT) {
+                        vertexData_[vIndexes[0] = 1].texCoords = (ccTex2F){0, tMax.y};
+                        vertexData_[vIndexes[1] = 3].texCoords = (ccTex2F){tMax.x, tMax.y};
+                }else if (type_ == kCCProgressTimerTypeVerticalBarTB) {
+                        vertexData_[vIndexes[0] = 0].texCoords = (ccTex2F){0, 0};
+                        vertexData_[vIndexes[1] = 2].texCoords = (ccTex2F){tMax.x, 0};
+                }
+                
+                index = vIndexes[0];
+                vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
+                
+                index = vIndexes[1];
+                vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
+                
+                if (sprite_.flipY || sprite_.flipX) {
+                        if (sprite_.flipX) {
+                                index = vIndexes[0];
+                                vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
+                                index = vIndexes[1];
+                                vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
+                        }
+                        if(sprite_.flipY){
+                                index = vIndexes[0];
+                                vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
+                                index = vIndexes[1];
+                                vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
+                        }
+                }
+                
+                [self updateColor];
+        }
+        
+        if(type_ == kCCProgressTimerTypeHorizontalBarLR){
+                vertexData_[vIndexes[0] = 3].texCoords = (ccTex2F){tMax.x*alpha, tMax.y};
+                vertexData_[vIndexes[1] = 2].texCoords = (ccTex2F){tMax.x*alpha, 0};
+        }else if (type_ == kCCProgressTimerTypeHorizontalBarRL) {
+                vertexData_[vIndexes[0] = 1].texCoords = (ccTex2F){tMax.x*(1.f - alpha), 0};
+                vertexData_[vIndexes[1] = 0].texCoords = (ccTex2F){tMax.x*(1.f - alpha), tMax.y};
+        }else if (type_ == kCCProgressTimerTypeVerticalBarBT) {
+                vertexData_[vIndexes[0] = 0].texCoords = (ccTex2F){0, tMax.y*(1.f - alpha)};
+                vertexData_[vIndexes[1] = 2].texCoords = (ccTex2F){tMax.x, tMax.y*(1.f - alpha)};
+        }else if (type_ == kCCProgressTimerTypeVerticalBarTB) {
+                vertexData_[vIndexes[0] = 1].texCoords = (ccTex2F){0, tMax.y*alpha};
+                vertexData_[vIndexes[1] = 3].texCoords = (ccTex2F){tMax.x, tMax.y*alpha};
+        }
+        
+        index = vIndexes[0];
+        vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
+        index = vIndexes[1];
+        vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
+        
+        if (sprite_.flipY || sprite_.flipX) {
+                if (sprite_.flipX) {
+                        index = vIndexes[0];
+                        vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
+                        index = vIndexes[1];
+                        vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
+                }
+                if(sprite_.flipY){
+                        index = vIndexes[0];
+                        vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
+                        index = vIndexes[1];
+                        vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
+                }
+        }
+        
+}
+-(CGPoint)boundaryTexCoord:(char)index
+{
+        if (index < kProgressTextureCoordsCount) {
+                switch (type_) {
+                        case kCCProgressTimerTypeRadialCW:
+                                return ccp((kProgressTextureCoords>>((index<<1)+1))&1,(kProgressTextureCoords>>(index<<1))&1);
+                        case kCCProgressTimerTypeRadialCCW:
+                                return ccp((kProgressTextureCoords>>(7-(index<<1)))&1,(kProgressTextureCoords>>(7-((index<<1)+1)))&1);
+                        default:
+                                break;
+                }
+        }
+        return CGPointZero;
+}
+-(void)draw
+{
+        [super draw];
+        if(!vertexData_)return;
+        if(!sprite_)return;
+        ccBlendFunc blendFunc = sprite_.blendFunc;
+        BOOL newBlend = blendFunc.src != CC_BLEND_SRC || blendFunc.dst != CC_BLEND_DST;
+        if( newBlend )
+                glBlendFunc( blendFunc.src, blendFunc.dst );
+        
+        ///     ========================================================================
+        //      Replaced [texture_ drawAtPoint:CGPointZero] with my own vertexData
+        //      Everything above me and below me is copied from CCTextureNode's draw
+        glBindTexture(GL_TEXTURE_2D, sprite_.texture.name);
+        glVertexPointer(2, GL_FLOAT, sizeof(ccV2F_C4B_T2F), &vertexData_[0].vertices);
+        glTexCoordPointer(2, GL_FLOAT, sizeof(ccV2F_C4B_T2F), &vertexData_[0].texCoords);
+        glColorPointer(4, GL_UNSIGNED_BYTE, sizeof(ccV2F_C4B_T2F), &vertexData_[0].colors);
+        if(type_ == kCCProgressTimerTypeRadialCCW || type_ == kCCProgressTimerTypeRadialCW){
+                glDrawArrays(GL_TRIANGLE_FAN, 0, vertexDataCount_);
+        } else if (type_ == kCCProgressTimerTypeHorizontalBarLR ||
+                           type_ == kCCProgressTimerTypeHorizontalBarRL ||
+                           type_ == kCCProgressTimerTypeVerticalBarBT ||
+                           type_ == kCCProgressTimerTypeVerticalBarTB) {
+                glDrawArrays(GL_TRIANGLE_STRIP, 0, vertexDataCount_);
+        }
+        //glDrawElements(GL_TRIANGLES, indicesCount_, GL_UNSIGNED_BYTE, indices_);
+        ///     ========================================================================
+        
+        if( newBlend )
+                glBlendFunc(CC_BLEND_SRC, CC_BLEND_DST);
+}
+@end

diff --git a/libs/cocos2d/CCProgressTimer.m b/libs/cocos2d/CCProgressTimer.m new file mode 100755 index 0000000..4e697b2 --- /dev/null +++ b/libs/cocos2d/CCProgressTimer.m
@@ -0,0 +1,493 @@
	1	/*
	2	* cocos2d for iPhone: http://www.cocos2d-iphone.org
	3	*
	4	* Copyright (c) 2010 Lam Pham
	5	*
	6	* Permission is hereby granted, free of charge, to any person obtaining a copy
	7	* of this software and associated documentation files (the "Software"), to deal
	8	* in the Software without restriction, including without limitation the rights
	9	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	10	* copies of the Software, and to permit persons to whom the Software is
	11	* furnished to do so, subject to the following conditions:
	12	*
	13	* The above copyright notice and this permission notice shall be included in
	14	* all copies or substantial portions of the Software.
	15	*
	16	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	17	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	18	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	19	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	20	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	21	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
	22	* THE SOFTWARE.
	23	*
	24	*/
	25
	26	#import "CCProgressTimer.h"
	27
	28	#import "ccMacros.h"
	29	#import "CCTextureCache.h"
	30	#import "Support/CGPointExtension.h"
	31
	32
	33
	34	#define kProgressTextureCoordsCount 4
	35	// kProgressTextureCoords holds points {0,0} {0,1} {1,1} {1,0} we can represent it as bits
	36	const char kProgressTextureCoords = 0x1e;
	37
	38	@interface CCProgressTimer (Internal)
	39
	40	-(void)updateProgress;
	41	-(void)updateBar;
	42	-(void)updateRadial;
	43	-(void)updateColor;
	44	-(CGPoint)boundaryTexCoord:(char)index;
	45	@end
	46
	47
	48	@implementation CCProgressTimer
	49	@synthesize percentage = percentage_;
	50	@synthesize sprite = sprite_;
	51	@synthesize type = type_;
	52
	53	+(id)progressWithFile:(NSString*) filename
	54	{
	55	return [[[self alloc]initWithFile:filename] autorelease];
	56	}
	57	-(id)initWithFile:(NSString*) filename
	58	{
	59	return [self initWithTexture:[[CCTextureCache sharedTextureCache] addImage: filename]];
	60	}
	61
	62	+(id)progressWithTexture:(CCTexture2D*) texture
	63	{
	64	return [[[self alloc]initWithTexture:texture] autorelease];
	65	}
	66	-(id)initWithTexture:(CCTexture2D*) texture
	67	{
	68	if(( self = [super init] )){
	69	self.sprite = [CCSprite spriteWithTexture:texture];
	70	percentage_ = 0.f;
	71	vertexData_ = NULL;
	72	vertexDataCount_ = 0;
	73	self.anchorPoint = ccp(.5f,.5f);
	74	self.contentSize = sprite_.contentSize;
	75	self.type = kCCProgressTimerTypeRadialCCW;
	76	}
	77	return self;
	78	}
	79	-(void)dealloc
	80	{
	81	if(vertexData_)
	82	free(vertexData_);
	83
	84	[sprite_ release];
	85	[super dealloc];
	86	}
	87
	88	-(void)setPercentage:(float) percentage
	89	{
	90	if(percentage_ != percentage) {
	91	percentage_ = clampf( percentage, 0, 100);
	92	[self updateProgress];
	93	}
	94	}
	95	-(void)setSprite:(CCSprite *)newSprite
	96	{
	97	if(sprite_ != newSprite){
	98	[sprite_ release];
	99	sprite_ = [newSprite retain];
	100
	101	// Everytime we set a new sprite, we free the current vertex data
	102	if(vertexData_){
	103	free(vertexData_);
	104	vertexData_ = NULL;
	105	vertexDataCount_ = 0;
	106	}
	107	}
	108	}
	109	-(void)setType:(CCProgressTimerType)newType
	110	{
	111	if (newType != type_) {
	112
	113	// release all previous information
	114	if(vertexData_){
	115	free(vertexData_);
	116	vertexData_ = NULL;
	117	vertexDataCount_ = 0;
	118	}
	119	type_ = newType;
	120	}
	121	}
	122	@end
	123
	124	@implementation CCProgressTimer(Internal)
	125
	126	///
	127	// @returns the vertex position from the texture coordinate
	128	///
	129	-(ccVertex2F)vertexFromTexCoord:(CGPoint) texCoord
	130	{
	131	CGPoint tmp;
	132	ccVertex2F ret;
	133	if (sprite_.texture) {
	134	CCTexture2D *texture = [sprite_ texture];
	135	CGSize texSize = [texture contentSizeInPixels];
	136	tmp = ccp(texSize.width * texCoord.x/texture.maxS,
	137	texSize.height * (1 - (texCoord.y/texture.maxT)));
	138	} else
	139	tmp = CGPointZero;
	140
	141	ret.x = tmp.x;
	142	ret.y = tmp.y;
	143	return ret;
	144	}
	145
	146	-(void)updateColor
	147	{
	148	GLubyte op = sprite_.opacity;
	149	ccColor3B c3b = sprite_.color;
	150
	151	ccColor4B color = { c3b.r, c3b.g, c3b.b, op };
	152	if([sprite_.texture hasPremultipliedAlpha]){
	153	color.r *= op/255;
	154	color.g *= op/255;
	155	color.b *= op/255;
	156	}
	157
	158	if(vertexData_){
	159	for (int i=0; i < vertexDataCount_; ++i) {
	160	vertexData_[i].colors = color;
	161	}
	162	}
	163	}
	164
	165	-(void)updateProgress
	166	{
	167	switch (type_) {
	168	case kCCProgressTimerTypeRadialCW:
	169	case kCCProgressTimerTypeRadialCCW:
	170	[self updateRadial];
	171	break;
	172	case kCCProgressTimerTypeHorizontalBarLR:
	173	case kCCProgressTimerTypeHorizontalBarRL:
	174	case kCCProgressTimerTypeVerticalBarBT:
	175	case kCCProgressTimerTypeVerticalBarTB:
	176	[self updateBar];
	177	break;
	178	default:
	179	break;
	180	}
	181	}
	182
	183	///
	184	// Update does the work of mapping the texture onto the triangles
	185	// It now doesn't occur the cost of free/alloc data every update cycle.
	186	// It also only changes the percentage point but no other points if they have not
	187	// been modified.
	188	//
	189	// It now deals with flipped texture. If you run into this problem, just use the
	190	// sprite property and enable the methods flipX, flipY.
	191	///
	192	-(void)updateRadial
	193	{
	194	// Texture Max is the actual max coordinates to deal with non-power of 2 textures
	195	CGPoint tMax = ccp(sprite_.texture.maxS,sprite_.texture.maxT);
	196
	197	// Grab the midpoint
	198	CGPoint midpoint = ccpCompMult(self.anchorPoint, tMax);
	199
	200	float alpha = percentage_ / 100.f;
	201
	202	// Otherwise we can get the angle from the alpha
	203	float angle = 2.f((float)M_PI) ( type_ == kCCProgressTimerTypeRadialCW? alpha : 1.f - alpha);
	204
	205	// We find the vector to do a hit detection based on the percentage
	206	// We know the first vector is the one @ 12 o'clock (top,mid) so we rotate
	207	// from that by the progress angle around the midpoint pivot
	208	CGPoint topMid = ccp(midpoint.x, 0.f);
	209	CGPoint percentagePt = ccpRotateByAngle(topMid, midpoint, angle);
	210
	211
	212	int index = 0;
	213	CGPoint hit = CGPointZero;
	214
	215	if (alpha == 0.f) {
	216	// More efficient since we don't always need to check intersection
	217	// If the alpha is zero then the hit point is top mid and the index is 0.
	218	hit = topMid;
	219	index = 0;
	220	} else if (alpha == 1.f) {
	221	// More efficient since we don't always need to check intersection
	222	// If the alpha is one then the hit point is top mid and the index is 4.
	223	hit = topMid;
	224	index = 4;
	225	} else {
	226	// We run a for loop checking the edges of the texture to find the
	227	// intersection point
	228	// We loop through five points since the top is split in half
	229
	230	float min_t = FLT_MAX;
	231
	232	for (int i = 0; i <= kProgressTextureCoordsCount; ++i) {
	233	int pIndex = (i + (kProgressTextureCoordsCount - 1))%kProgressTextureCoordsCount;
	234
	235	CGPoint edgePtA = ccpCompMult([self boundaryTexCoord:i % kProgressTextureCoordsCount],tMax);
	236	CGPoint edgePtB = ccpCompMult([self boundaryTexCoord:pIndex],tMax);
	237
	238	// Remember that the top edge is split in half for the 12 o'clock position
	239	// Let's deal with that here by finding the correct endpoints
	240	if(i == 0){
	241	edgePtB = ccpLerp(edgePtA,edgePtB,.5f);
	242	} else if(i == 4){
	243	edgePtA = ccpLerp(edgePtA,edgePtB,.5f);
	244	}
	245
	246	// s and t are returned by ccpLineIntersect
	247	float s = 0, t = 0;
	248	if(ccpLineIntersect(edgePtA, edgePtB, midpoint, percentagePt, &s, &t))
	249	{
	250
	251	// Since our hit test is on rays we have to deal with the top edge
	252	// being in split in half so we have to test as a segment
	253	if ((i == 0 \|\| i == 4)) {
	254	// s represents the point between edgePtA--edgePtB
	255	if (!(0.f <= s && s <= 1.f)) {
	256	continue;
	257	}
	258	}
	259	// As long as our t isn't negative we are at least finding a
	260	// correct hitpoint from midpoint to percentagePt.
	261	if (t >= 0.f) {
	262	// Because the percentage line and all the texture edges are
	263	// rays we should only account for the shortest intersection
	264	if (t < min_t) {
	265	min_t = t;
	266	index = i;
	267	}
	268	}
	269	}
	270	}
	271
	272	// Now that we have the minimum magnitude we can use that to find our intersection
	273	hit = ccpAdd(midpoint, ccpMult(ccpSub(percentagePt, midpoint),min_t));
	274
	275	}
	276
	277
	278	// The size of the vertex data is the index from the hitpoint
	279	// the 3 is for the midpoint, 12 o'clock point and hitpoint position.
	280
	281	BOOL sameIndexCount = YES;
	282	if(vertexDataCount_ != index + 3){
	283	sameIndexCount = NO;
	284	if(vertexData_){
	285	free(vertexData_);
	286	vertexData_ = NULL;
	287	vertexDataCount_ = 0;
	288	}
	289	}
	290
	291
	292	if(!vertexData_) {
	293	vertexDataCount_ = index + 3;
	294	vertexData_ = malloc(vertexDataCount_ * sizeof(ccV2F_C4B_T2F));
	295	NSAssert( vertexData_, @"CCProgressTimer. Not enough memory");
	296
	297	[self updateColor];
	298	}
	299
	300	if (!sameIndexCount) {
	301
	302	// First we populate the array with the midpoint, then all
	303	// vertices/texcoords/colors of the 12 'o clock start and edges and the hitpoint
	304	vertexData_[0].texCoords = (ccTex2F){midpoint.x, midpoint.y};
	305	vertexData_[0].vertices = [self vertexFromTexCoord:midpoint];
	306
	307	vertexData_[1].texCoords = (ccTex2F){midpoint.x, 0.f};
	308	vertexData_[1].vertices = [self vertexFromTexCoord:ccp(midpoint.x, 0.f)];
	309
	310	for(int i = 0; i < index; ++i){
	311	CGPoint texCoords = ccpCompMult([self boundaryTexCoord:i], tMax);
	312
	313	vertexData_[i+2].texCoords = (ccTex2F){texCoords.x, texCoords.y};
	314	vertexData_[i+2].vertices = [self vertexFromTexCoord:texCoords];
	315	}
	316
	317	// Flip the texture coordinates if set
	318	if (sprite_.flipY \|\| sprite_.flipX) {
	319	for(int i = 0; i < vertexDataCount_ - 1; ++i){
	320	if (sprite_.flipX) {
	321	vertexData_[i].texCoords.u = tMax.x - vertexData_[i].texCoords.u;
	322	}
	323	if(sprite_.flipY){
	324	vertexData_[i].texCoords.v = tMax.y - vertexData_[i].texCoords.v;
	325	}
	326	}
	327	}
	328	}
	329
	330	// hitpoint will go last
	331	vertexData_[vertexDataCount_ - 1].texCoords = (ccTex2F){hit.x, hit.y};
	332	vertexData_[vertexDataCount_ - 1].vertices = [self vertexFromTexCoord:hit];
	333
	334	if (sprite_.flipY \|\| sprite_.flipX) {
	335	if (sprite_.flipX) {
	336	vertexData_[vertexDataCount_ - 1].texCoords.u = tMax.x - vertexData_[vertexDataCount_ - 1].texCoords.u;
	337	}
	338	if(sprite_.flipY){
	339	vertexData_[vertexDataCount_ - 1].texCoords.v = tMax.y - vertexData_[vertexDataCount_ - 1].texCoords.v;
	340	}
	341	}
	342	}
	343
	344	///
	345	// Update does the work of mapping the texture onto the triangles for the bar
	346	// It now doesn't occur the cost of free/alloc data every update cycle.
	347	// It also only changes the percentage point but no other points if they have not
	348	// been modified.
	349	//
	350	// It now deals with flipped texture. If you run into this problem, just use the
	351	// sprite property and enable the methods flipX, flipY.
	352	///
	353	-(void)updateBar
	354	{
	355
	356	float alpha = percentage_ / 100.f;
	357
	358	CGPoint tMax = ccp(sprite_.texture.maxS,sprite_.texture.maxT);
	359
	360	unsigned char vIndexes[2] = {0,0};
	361	unsigned char index = 0;
	362
	363	// We know vertex data is always equal to the 4 corners
	364	// If we don't have vertex data then we create it here and populate
	365	// the side of the bar vertices that won't ever change.
	366	if (!vertexData_) {
	367	vertexDataCount_ = kProgressTextureCoordsCount;
	368	vertexData_ = malloc(vertexDataCount_ * sizeof(ccV2F_C4B_T2F));
	369	NSAssert( vertexData_, @"CCProgressTimer. Not enough memory");
	370
	371	if(type_ == kCCProgressTimerTypeHorizontalBarLR){
	372	vertexData_[vIndexes[0] = 0].texCoords = (ccTex2F){0,0};
	373	vertexData_[vIndexes[1] = 1].texCoords = (ccTex2F){0, tMax.y};
	374	}else if (type_ == kCCProgressTimerTypeHorizontalBarRL) {
	375	vertexData_[vIndexes[0] = 2].texCoords = (ccTex2F){tMax.x, tMax.y};
	376	vertexData_[vIndexes[1] = 3].texCoords = (ccTex2F){tMax.x, 0.f};
	377	}else if (type_ == kCCProgressTimerTypeVerticalBarBT) {
	378	vertexData_[vIndexes[0] = 1].texCoords = (ccTex2F){0, tMax.y};
	379	vertexData_[vIndexes[1] = 3].texCoords = (ccTex2F){tMax.x, tMax.y};
	380	}else if (type_ == kCCProgressTimerTypeVerticalBarTB) {
	381	vertexData_[vIndexes[0] = 0].texCoords = (ccTex2F){0, 0};
	382	vertexData_[vIndexes[1] = 2].texCoords = (ccTex2F){tMax.x, 0};
	383	}
	384
	385	index = vIndexes[0];
	386	vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
	387
	388	index = vIndexes[1];
	389	vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
	390
	391	if (sprite_.flipY \|\| sprite_.flipX) {
	392	if (sprite_.flipX) {
	393	index = vIndexes[0];
	394	vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
	395	index = vIndexes[1];
	396	vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
	397	}
	398	if(sprite_.flipY){
	399	index = vIndexes[0];
	400	vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
	401	index = vIndexes[1];
	402	vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
	403	}
	404	}
	405
	406	[self updateColor];
	407	}
	408
	409	if(type_ == kCCProgressTimerTypeHorizontalBarLR){
	410	vertexData_[vIndexes[0] = 3].texCoords = (ccTex2F){tMax.x*alpha, tMax.y};
	411	vertexData_[vIndexes[1] = 2].texCoords = (ccTex2F){tMax.x*alpha, 0};
	412	}else if (type_ == kCCProgressTimerTypeHorizontalBarRL) {
	413	vertexData_[vIndexes[0] = 1].texCoords = (ccTex2F){tMax.x*(1.f - alpha), 0};
	414	vertexData_[vIndexes[1] = 0].texCoords = (ccTex2F){tMax.x*(1.f - alpha), tMax.y};
	415	}else if (type_ == kCCProgressTimerTypeVerticalBarBT) {
	416	vertexData_[vIndexes[0] = 0].texCoords = (ccTex2F){0, tMax.y*(1.f - alpha)};
	417	vertexData_[vIndexes[1] = 2].texCoords = (ccTex2F){tMax.x, tMax.y*(1.f - alpha)};
	418	}else if (type_ == kCCProgressTimerTypeVerticalBarTB) {
	419	vertexData_[vIndexes[0] = 1].texCoords = (ccTex2F){0, tMax.y*alpha};
	420	vertexData_[vIndexes[1] = 3].texCoords = (ccTex2F){tMax.x, tMax.y*alpha};
	421	}
	422
	423	index = vIndexes[0];
	424	vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
	425	index = vIndexes[1];
	426	vertexData_[index].vertices = [self vertexFromTexCoord:ccp(vertexData_[index].texCoords.u, vertexData_[index].texCoords.v)];
	427
	428	if (sprite_.flipY \|\| sprite_.flipX) {
	429	if (sprite_.flipX) {
	430	index = vIndexes[0];
	431	vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
	432	index = vIndexes[1];
	433	vertexData_[index].texCoords.u = tMax.x - vertexData_[index].texCoords.u;
	434	}
	435	if(sprite_.flipY){
	436	index = vIndexes[0];
	437	vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
	438	index = vIndexes[1];
	439	vertexData_[index].texCoords.v = tMax.y - vertexData_[index].texCoords.v;
	440	}
	441	}
	442
	443	}
	444
	445	-(CGPoint)boundaryTexCoord:(char)index
	446	{
	447	if (index < kProgressTextureCoordsCount) {
	448	switch (type_) {
	449	case kCCProgressTimerTypeRadialCW:
	450	return ccp((kProgressTextureCoords>>((index<<1)+1))&1,(kProgressTextureCoords>>(index<<1))&1);
	451	case kCCProgressTimerTypeRadialCCW:
	452	return ccp((kProgressTextureCoords>>(7-(index<<1)))&1,(kProgressTextureCoords>>(7-((index<<1)+1)))&1);
	453	default:
	454	break;
	455	}
	456	}
	457	return CGPointZero;
	458	}
	459
	460	-(void)draw
	461	{
	462	[super draw];
	463
	464	if(!vertexData_)return;
	465	if(!sprite_)return;
	466	ccBlendFunc blendFunc = sprite_.blendFunc;
	467	BOOL newBlend = blendFunc.src != CC_BLEND_SRC \|\| blendFunc.dst != CC_BLEND_DST;
	468	if( newBlend )
	469	glBlendFunc( blendFunc.src, blendFunc.dst );
	470
	471	/// ========================================================================
	472	// Replaced [texture_ drawAtPoint:CGPointZero] with my own vertexData
	473	// Everything above me and below me is copied from CCTextureNode's draw
	474	glBindTexture(GL_TEXTURE_2D, sprite_.texture.name);
	475	glVertexPointer(2, GL_FLOAT, sizeof(ccV2F_C4B_T2F), &vertexData_[0].vertices);
	476	glTexCoordPointer(2, GL_FLOAT, sizeof(ccV2F_C4B_T2F), &vertexData_[0].texCoords);
	477	glColorPointer(4, GL_UNSIGNED_BYTE, sizeof(ccV2F_C4B_T2F), &vertexData_[0].colors);
	478	if(type_ == kCCProgressTimerTypeRadialCCW \|\| type_ == kCCProgressTimerTypeRadialCW){
	479	glDrawArrays(GL_TRIANGLE_FAN, 0, vertexDataCount_);
	480	} else if (type_ == kCCProgressTimerTypeHorizontalBarLR \|\|
	481	type_ == kCCProgressTimerTypeHorizontalBarRL \|\|
	482	type_ == kCCProgressTimerTypeVerticalBarBT \|\|
	483	type_ == kCCProgressTimerTypeVerticalBarTB) {
	484	glDrawArrays(GL_TRIANGLE_STRIP, 0, vertexDataCount_);
	485	}
	486	//glDrawElements(GL_TRIANGLES, indicesCount_, GL_UNSIGNED_BYTE, indices_);
	487	/// ========================================================================
	488
	489	if( newBlend )
	490	glBlendFunc(CC_BLEND_SRC, CC_BLEND_DST);
	491	}
	492
	493	@end