2C_patterns.md

# Complete 2-Candle Patterns

| Code_Name | Pattern_Description | Pattern_Logic | Standard_Name | Image Reference |
|---|---|---|---|---|
| Bull_1_GAP_UP_Bull_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bull_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bull_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bull_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bear_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bear_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bear_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_UP_Bear_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_1.png |
| Bull_1_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
| Bull_1_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
| Bull_1_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
| Bull_1_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
| Bull_1_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
| Bull_1_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
| Bull_1_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
| Bull_1_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
| Bull_1_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
| Bull_1_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
| Bull_1_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
| Bull_1_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
| Bull_1_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
| Bull_1_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
| Bull_1_HARAMI_Bull_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
| Bull_1_HARAMI_Bull_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
| Bull_1_HARAMI_Bull_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
| Bull_1_HARAMI_Bull_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
| Bull_1_HARAMI_Bear_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_3.png |
| Bull_1_HARAMI_Bear_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_3.png |
| Bull_1_HARAMI_Bear_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_4.png |
| Bull_1_HARAMI_Bear_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_4.png |
| Bull_1_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
| Bull_1_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
| Bull_1_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
| Bull_1_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
| Bull_1_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
| Bull_1_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
| Bull_1_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
| Bull_1_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
| Bull_1_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_5.png |
| Bull_1_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
| Bull_1_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_5.png |
| Bull_1_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_5.png |
| Bull_1_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_6.png |
| Bull_1_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_6.png |
| Bull_1_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
| Bull_1_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
| Bull_1_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
| Bull_1_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
| Bull_1_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
| Bull_1_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
| Bull_1_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
| Bull_1_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
| Bull_1_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_7.png |
| Bull_1_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
| Bull_1_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_8.png |
| Bull_1_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
| Bull_1_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
| Bull_1_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_9.png |
| Bull_1_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_9.png |
| Bull_1_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_9.png |
| Bull_1_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_9.png |
| Bull_1_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_9.png |
| Bull_1_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_9.png |
| Bull_1_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_9.png |
| Bull_1_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_9.png |
| Bull_2_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
| Bull_2_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
| Bull_2_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
| Bull_2_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_11.png |
| Bull_2_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_11.png |
| Bull_2_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_11.png |
| Bull_2_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_11.png |
| Bull_2_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
| Bull_2_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
| Bull_2_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
| Bull_2_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
| Bull_2_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_11.png |
| Bull_2_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_11.png |
| Bull_2_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_12.png |
| Bull_2_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_12.png |
| Bull_2_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_12.png |
| Bull_2_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_12.png |
| Bull_2_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_12.png |
| Bull_2_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_12.png |
| Bull_2_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_12.png |
| Bull_2_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_12.png |
| Bull_2_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_12.png |
| Bull_2_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_12.png |
| Bull_2_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_13.png |
| Bull_2_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_13.png |
| Bull_2_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_13.png |
| Bull_2_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_13.png |
| Bull_2_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_13.png |
| Bull_2_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_13.png |
| Bull_2_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_13.png |
| Bull_2_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_13.png |
| Bull_2_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
| Bull_2_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
| Bull_2_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_14.png |
| Bull_2_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_14.png |
| Bull_2_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_14.png |
| Bull_2_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_14.png |
| Bull_2_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_14.png |
| Bull_2_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_14.png |
| Bull_2_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_14.png |
| Bull_2_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_14.png |
| Bull_2_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_14.png |
| Bull_2_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_14.png |
| Bull_2_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_15.png |
| Bull_2_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_15.png |
| Bull_2_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_15.png |
| Bull_2_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
| Bull_2_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
| Bull_2_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_17.png |
| Bull_2_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_17.png |
| Bull_2_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_17.png |
| Bull_2_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_17.png |
| Bull_2_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_18.png |
| Bull_2_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_18.png |
| Bull_2_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_18.png |
| Bull_2_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_18.png |
| Bull_2_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_18.png |
| Bull_2_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_18.png |
| Bull_3_GAP_UP_Bull_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_18.png |
| Bull_3_GAP_UP_Bull_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_18.png |
| Bull_3_GAP_UP_Bull_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_18.png |
| Bull_3_GAP_UP_Bull_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_18.png |
| Bull_3_GAP_UP_Bear_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_UP_Bear_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_UP_Bear_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_UP_Bear_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_19.png |
| Bull_3_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_20.png |
| Bull_3_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_20.png |
| Bull_3_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_20.png |
| Bull_3_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_20.png |
| Bull_3_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_20.png |
| Bull_3_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_20.png |
| Bull_3_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_20.png |
| Bull_3_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_20.png |
| Bull_3_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_20.png |
| Bull_3_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_20.png |
| Bull_3_HARAMI_Bull_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_21.png |
| Bull_3_HARAMI_Bull_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_21.png |
| Bull_3_HARAMI_Bull_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_21.png |
| Bull_3_HARAMI_Bull_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_21.png |
| Bull_3_HARAMI_Bear_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_21.png |
| Bull_3_HARAMI_Bear_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_21.png |
| Bull_3_HARAMI_Bear_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_21.png |
| Bull_3_HARAMI_Bear_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_21.png |
| Bull_3_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_21.png |
| Bull_3_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_21.png |
| Bull_3_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_22.png |
| Bull_3_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_22.png |
| Bull_3_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_22.png |
| Bull_3_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_22.png |
| Bull_3_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_22.png |
| Bull_3_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_22.png |
| Bull_3_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_22.png |
| Bull_3_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_22.png |
| Bull_3_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_22.png |
| Bull_3_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_22.png |
| Bull_3_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_23.png |
| Bull_3_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_23.png |
| Bull_3_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_23.png |
| Bull_3_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_23.png |
| Bull_3_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_23.png |
| Bull_3_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_23.png |
| Bull_3_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_23.png |
| Bull_3_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_23.png |
| Bull_3_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_23.png |
| Bull_3_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_23.png |
| Bull_3_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_24.png |
| Bull_3_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_24.png |
| Bull_3_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_24.png |
| Bull_3_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_25.png |
| Bull_3_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_25.png |
| Bull_3_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_25.png |
| Bull_3_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_26.png |
| Bull_3_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_26.png |
| Bull_3_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_26.png |
| Bull_3_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_26.png |
| Bull_3_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_26.png |
| Bull_3_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_26.png |
| Bull_3_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_26.png |
| Bull_3_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_26.png |
| Bull_3_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_26.png |
| Bull_3_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_26.png |
| Bull_3_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_27.png |
| Bull_3_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_27.png |
| Bull_3_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_27.png |
| Bull_3_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_27.png |
| Bull_4_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_28.png |
| Bull_4_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | Bearish Kicking | plot_28.png |
| Bull_4_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_29.png |
| Bull_4_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_29.png |
| Bull_4_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_29.png |
| Bull_4_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_29.png |
| Bull_4_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_29.png |
| Bull_4_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_29.png |
| Bull_4_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_29.png |
| Bull_4_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_29.png |
| Bull_4_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_29.png |
| Bull_4_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_29.png |
| Bull_4_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_30.png |
| Bull_4_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_30.png |
| Bull_4_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_30.png |
| Bull_4_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_30.png |
| Bull_4_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_30.png |
| Bull_4_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_30.png |
| Bull_4_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_30.png |
| Bull_4_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_30.png |
| Bull_4_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_30.png |
| Bull_4_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_30.png |
| Bull_4_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_31.png |
| Bull_4_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_31.png |
| Bull_4_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_31.png |
| Bull_4_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_31.png |
| Bull_4_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_31.png |
| Bull_4_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_31.png |
| Bull_4_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_31.png |
| Bull_4_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_31.png |
| Bull_4_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_31.png |
| Bull_4_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_31.png |
| Bull_4_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_32.png |
| Bull_4_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_32.png |
| Bull_4_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_32.png |
| Bull_4_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_32.png |
| Bull_4_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_32.png |
| Bull_4_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_32.png |
| Bull_4_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_32.png |
| Bull_4_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_32.png |
| Bull_4_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_32.png |
| Bull_4_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_32.png |
| Bull_4_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_33.png |
| Bull_4_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_34.png |
| Bull_4_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_34.png |
| Bull_4_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_34.png |
| Bull_4_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_34.png |
| Bull_4_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_34.png |
| Bull_4_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_34.png |
| Bull_4_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_34.png |
| Bull_4_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_34.png |
| Bull_4_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_34.png |
| Bull_4_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_34.png |
| Bull_4_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_35.png |
| Bull_4_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_35.png |
| Bull_4_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_35.png |
| Bull_4_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_35.png |
| Bull_4_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_35.png |
| Bull_4_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_35.png |
| Bull_4_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_35.png |
| Bull_4_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_35.png |
| Bull_4_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_35.png |
| Bull_4_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_35.png |
| Bull_4_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_36.png |
| Bull_4_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Top | plot_36.png |
| Bear_1_GAP_UP_Bull_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bull_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bull_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bull_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bear_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bear_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bear_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_UP_Bear_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_36.png |
| Bear_1_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_37.png |
| Bear_1_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_37.png |
| Bear_1_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_37.png |
| Bear_1_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_38.png |
| Bear_1_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_38.png |
| Bear_1_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_38.png |
| Bear_1_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_38.png |
| Bear_1_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_38.png |
| Bear_1_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_38.png |
| Bear_1_HARAMI_Bull_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_38.png |
| Bear_1_HARAMI_Bull_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_38.png |
| Bear_1_HARAMI_Bull_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_38.png |
| Bear_1_HARAMI_Bull_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_38.png |
| Bear_1_HARAMI_Bear_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_39.png |
| Bear_1_HARAMI_Bear_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_39.png |
| Bear_1_HARAMI_Bear_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_39.png |
| Bear_1_HARAMI_Bear_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_39.png |
| Bear_1_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_39.png |
| Bear_1_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_39.png |
| Bear_1_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_39.png |
| Bear_1_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_39.png |
| Bear_1_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_39.png |
| Bear_1_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_39.png |
| Bear_1_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_40.png |
| Bear_1_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_40.png |
| Bear_1_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_40.png |
| Bear_1_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_40.png |
| Bear_1_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_40.png |
| Bear_1_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_40.png |
| Bear_1_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_40.png |
| Bear_1_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_40.png |
| Bear_1_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_40.png |
| Bear_1_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_40.png |
| Bear_1_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_41.png |
| Bear_1_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_41.png |
| Bear_1_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_41.png |
| Bear_1_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_41.png |
| Bear_1_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_41.png |
| Bear_1_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_41.png |
| Bear_1_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_41.png |
| Bear_1_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_41.png |
| Bear_1_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_41.png |
| Bear_1_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_41.png |
| Bear_1_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_42.png |
| Bear_1_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_42.png |
| Bear_1_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_42.png |
| Bear_1_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_43.png |
| Bear_1_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_43.png |
| Bear_1_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_43.png |
| Bear_1_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_43.png |
| Bear_1_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_44.png |
| Bear_1_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_44.png |
| Bear_1_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_44.png |
| Bear_1_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_44.png |
| Bear_1_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_44.png |
| Bear_1_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_44.png |
| Bear_1_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_44.png |
| Bear_1_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_44.png |
| Bear_1_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_44.png |
| Bear_1_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_44.png |
| Bear_2_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_45.png |
| Bear_2_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_46.png |
| Bear_2_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_46.png |
| Bear_2_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_46.png |
| Bear_2_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_46.png |
| Bear_2_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_46.png |
| Bear_2_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_46.png |
| Bear_2_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_46.png |
| Bear_2_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_46.png |
| Bear_2_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_46.png |
| Bear_2_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_46.png |
| Bear_2_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_47.png |
| Bear_2_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_47.png |
| Bear_2_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_47.png |
| Bear_2_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_47.png |
| Bear_2_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_47.png |
| Bear_2_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_47.png |
| Bear_2_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_47.png |
| Bear_2_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_47.png |
| Bear_2_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_47.png |
| Bear_2_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_47.png |
| Bear_2_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_48.png |
| Bear_2_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_48.png |
| Bear_2_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_48.png |
| Bear_2_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_48.png |
| Bear_2_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_48.png |
| Bear_2_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_48.png |
| Bear_2_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_48.png |
| Bear_2_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_48.png |
| Bear_2_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_48.png |
| Bear_2_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_48.png |
| Bear_2_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_49.png |
| Bear_2_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_49.png |
| Bear_2_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_49.png |
| Bear_2_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_49.png |
| Bear_2_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_49.png |
| Bear_2_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_49.png |
| Bear_2_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_49.png |
| Bear_2_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_49.png |
| Bear_2_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_49.png |
| Bear_2_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_49.png |
| Bear_2_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_50.png |
| Bear_2_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_50.png |
| Bear_2_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_50.png |
| Bear_2_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_50.png |
| Bear_2_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_50.png |
| Bear_2_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_50.png |
| Bear_2_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_50.png |
| Bear_2_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_50.png |
| Bear_2_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_50.png |
| Bear_2_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_50.png |
| Bear_2_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_51.png |
| Bear_2_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_52.png |
| Bear_2_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_52.png |
| Bear_2_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_52.png |
| Bear_2_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_53.png |
| Bear_2_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_53.png |
| Bear_2_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_53.png |
| Bear_2_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_53.png |
| Bear_2_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_53.png |
| Bear_2_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_53.png |
| Bear_2_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_53.png |
| Bear_2_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_53.png |
| Bear_3_GAP_UP_Bull_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_53.png |
| Bear_3_GAP_UP_Bull_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_53.png |
| Bear_3_GAP_UP_Bull_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_UP_Bull_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_UP_Bear_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_UP_Bear_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_UP_Bear_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_UP_Bear_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_54.png |
| Bear_3_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_55.png |
| Bear_3_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_55.png |
| Bear_3_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_55.png |
| Bear_3_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_55.png |
| Bear_3_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_55.png |
| Bear_3_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_55.png |
| Bear_3_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_55.png |
| Bear_3_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_55.png |
| Bear_3_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_55.png |
| Bear_3_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_55.png |
| Bear_3_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_56.png |
| Bear_3_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_56.png |
| Bear_3_HARAMI_Bull_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_56.png |
| Bear_3_HARAMI_Bull_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_56.png |
| Bear_3_HARAMI_Bull_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_56.png |
| Bear_3_HARAMI_Bull_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_56.png |
| Bear_3_HARAMI_Bear_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_56.png |
| Bear_3_HARAMI_Bear_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_56.png |
| Bear_3_HARAMI_Bear_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_56.png |
| Bear_3_HARAMI_Bear_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_56.png |
| Bear_3_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_57.png |
| Bear_3_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_57.png |
| Bear_3_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_57.png |
| Bear_3_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_57.png |
| Bear_3_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_57.png |
| Bear_3_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_57.png |
| Bear_3_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_57.png |
| Bear_3_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_57.png |
| Bear_3_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_57.png |
| Bear_3_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_57.png |
| Bear_3_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_58.png |
| Bear_3_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_58.png |
| Bear_3_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_58.png |
| Bear_3_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_58.png |
| Bear_3_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_58.png |
| Bear_3_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_58.png |
| Bear_3_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_58.png |
| Bear_3_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_58.png |
| Bear_3_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_58.png |
| Bear_3_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_58.png |
| Bear_3_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_59.png |
| Bear_3_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_59.png |
| Bear_3_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_59.png |
| Bear_3_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_59.png |
| Bear_3_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_60.png |
| Bear_3_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_61.png |
| Bear_3_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_61.png |
| Bear_3_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_61.png |
| Bear_3_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_61.png |
| Bear_3_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_62.png |
| Bear_3_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_62.png |
| Bear_3_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_62.png |
| Bear_3_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_62.png |
| Bear_3_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_62.png |
| Bear_3_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_62.png |
| Bear_4_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_62.png |
| Bear_4_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_62.png |
| Bear_4_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_62.png |
| Bear_4_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | Bullish Kicking | plot_62.png |
| Bear_4_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_63.png |
| Bear_4_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_64.png |
| Bear_4_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_64.png |
| Bear_4_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_64.png |
| Bear_4_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_64.png |
| Bear_4_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_64.png |
| Bear_4_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_64.png |
| Bear_4_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_64.png |
| Bear_4_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_64.png |
| Bear_4_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_64.png |
| Bear_4_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_64.png |
| Bear_4_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_65.png |
| Bear_4_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_65.png |
| Bear_4_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_65.png |
| Bear_4_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_65.png |
| Bear_4_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_65.png |
| Bear_4_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_65.png |
| Bear_4_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_65.png |
| Bear_4_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_65.png |
| Bear_4_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_65.png |
| Bear_4_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_65.png |
| Bear_4_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_66.png |
| Bear_4_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_66.png |
| Bear_4_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_66.png |
| Bear_4_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_66.png |
| Bear_4_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_66.png |
| Bear_4_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_66.png |
| Bear_4_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_66.png |
| Bear_4_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_66.png |
| Bear_4_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_66.png |
| Bear_4_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_66.png |
| Bear_4_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_67.png |
| Bear_4_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_67.png |
| Bear_4_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_67.png |
| Bear_4_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_67.png |
| Bear_4_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_67.png |
| Bear_4_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_67.png |
| Bear_4_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_67.png |
| Bear_4_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_67.png |
| Bear_4_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_67.png |
| Bear_4_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_67.png |
| Bear_4_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_68.png |
| Bear_4_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_68.png |
| Bear_4_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_68.png |
| Bear_4_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_69.png |
| Bear_4_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_69.png |
| Bear_4_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_69.png |
| Bear_4_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_70.png |
| Bear_4_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_70.png |
| Bear_4_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_70.png |
| Bear_4_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_70.png |
| Bear_4_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_70.png |
| Bear_4_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_70.png |
| Bear_4_CONTINUATION_Bull_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_70.png |
| Bear_4_CONTINUATION_Bull_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> O_C0 = C_C-1 <br> } | - | plot_70.png |
| Bear_4_CONTINUATION_Bull_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_70.png |
| Bear_4_CONTINUATION_Bull_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> O_C0 = C_C-1 <br> } | Tweezer Bottom | plot_70.png |
| Bear_4_CONTINUATION_Bear_1 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_71.png |
| Bear_4_CONTINUATION_Bear_2 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_71.png |
| Bear_4_CONTINUATION_Bear_3 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_71.png |
| Bear_4_CONTINUATION_Bear_4 | Open of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> O_C0 = C_C-1 <br> } | - | plot_71.png |